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chara:pavo_user_manual [2018/07/06 11:22]
jones [Table of Contents]
chara:pavo_user_manual [2023/12/03 22:47] (current)
bflores [2 Cooling Down the PAVO Camera]
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 ====== PAVO User Guide (Updated 31 May 2017) ====== ====== PAVO User Guide (Updated 31 May 2017) ======
-Next: [[#Introduction|Introduction]], Previous: [[chara:pavo_user_manual|(dir)]], Up: [[chara:pavo_user_manual|(dir)]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#introduction|Introduction]], Previous: [[:chara:pavo_user_manual|(dir)]], Up: [[:chara:pavo_user_manual|(dir)]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ====== Top ====== ====== Top ======
  
-| • [[#Introduction|Introduction]]: |     | +|• [[#introduction|Introduction]]:    | 
-| • [[#Cooling_Down_the_PAVO_Camera|Cooling Down the PAVO Camera]]: |     | +|• [[#cooling_down_the_pavo_camera|Cooling Down the PAVO Camera]]:    | 
-| • [[#Overview_of_Alignment_Steps|Overview of Alignment Steps]]: |     | +|• [[#overview_of_alignment_steps|Overview of Alignment Steps]]:    | 
-| • [[#Aligning_PAVO_in_the_Lab|Aligning PAVO in the Lab]]: |     | +|• [[#aligning_pavo_in_the_lab|Aligning PAVO in the Lab]]:    | 
-| • [[#Description_of_PAVO_Server_and_GUI|Description of PAVO Server and GUI]]: |     | +|• [[#description_of_pavo_server_and_gui|Description of PAVO Server and GUI]]:    | 
-| • [[#Starting_PAVO_Software|Starting PAVO Software]]: |     | +|• [[#starting_pavo_software|Starting PAVO Software]]:    | 
-| • [[#On-sky_Alignment|On-sky Alignment]]: |     | +|• [[#on-sky_alignment|On-sky Alignment]]:    | 
-| • [[#Observing_with_PAVO|Observing with PAVO]]: |     | +|• [[#observing_with_pavo|Observing with PAVO]]:    | 
-| • [[#Shutting_down_PAVO|Shutting down PAVO]]: |     | +|• [[#shutting_down_pavo|Shutting down PAVO]]:    | 
-| • [[#Recommendations_for_Setting_Beam_Order|Recommendations for Setting Beam Order]]: |     | +|• [[#recommendations_for_setting_beam_order|Recommendations for Setting Beam Order]]:    | 
-| • [[#Fringe_Finding_Sources|Fringe Finding Sources]]: |     | +|• [[#fringe_finding_sources|Fringe Finding Sources]]:    | 
-| • [[#Troubleshooting|Troubleshooting]]: |     | +|• [[#troubleshooting|Troubleshooting]]:    | 
-| • [[#Random_and_Important_Notes|Random and Important Notes]]: |     | +|• [[#random_and_important_notes|Random and Important Notes]]:    | 
-| • [[#Index|Index]]: |     | +|• [[#index|Index]]:    | 
-^   ^^^ +^   ^^| 
-^ — The Detailed Node Listing —   Aligning PAVO in the Lab ^^^ +^— The Detailed Node Listing — Aligning PAVO in the Lab^^| 
-| • [[#Basic_Alignment_of_PAVO_in_the_Lab|Basic Alignment of PAVO in the Lab]]: |     | +|• [[#basic_alignment_of_pavo_in_the_lab|Basic Alignment of PAVO in the Lab]]:    | 
-| • [[#Checking_Alignment_on_PAVO_Lenses|Checking Alignment on PAVO Lenses]]: |     | +|• [[#checking_alignment_on_pavo_lenses|Checking Alignment on PAVO Lenses]]:    | 
-| • [[#Checking_Alignment_on_PAVO_Camera|Checking Alignment on PAVO Camera]]: |     | +|• [[#checking_alignment_on_pavo_camera|Checking Alignment on PAVO Camera]]:    | 
-| • [[#Align_Wavelength_Scale_in_Lab|Align Wavelength Scale in Lab]]: |     | +|• [[#align_wavelength_scale_in_lab|Align Wavelength Scale in Lab]]:    | 
-| • [[#Adjusting_PAVO_Coarse_Alignment|Adjusting PAVO Coarse Alignment]]: |     | +|• [[#adjusting_pavo_coarse_alignment|Adjusting PAVO Coarse Alignment]]:    | 
-| • [[#Changing_focus|Changing focus]]: |     | +|• [[#changing_focus|Changing focus]]:    | 
-| • [[#General_Alignment_Notes|General Alignment Notes]]: |     | +|• [[#general_alignment_notes|General Alignment Notes]]:    | 
-^ Adjusting PAVO Coarse Alignment ^^^ +^Adjusting PAVO Coarse Alignment^^| 
-| • [[#Step_1_-_Correct_for_offset_on_L1|Step 1 - Correct for offset on L1]] : |     | +|• [[#step_1_-_correct_for_offset_on_l1|Step 1 - Correct for offset on L1]] :|     | 
-| • [[#Step_2_-_Correct_for_offset_on_L2|Step 2 - Correct for offset on L2]] : |     | +|• [[#step_2_-_correct_for_offset_on_l2|Step 2 - Correct for offset on L2]] :|     | 
-^ Description of PAVO Server and GUI ^^^ +^Description of PAVO Server and GUI^^| 
-| • [[#PAVO_Server_Status_Window|PAVO Server/Status Window]]: |     | +|• [[#pavo_server_status_window|PAVO Server/Status Window]]:    | 
-| • [[#PAVO_GUI|PAVO GUI]]: |     | +|• [[#pavo_gui|PAVO GUI]]:    | 
-| • [[#PAVO_Engineering_GUI|PAVO Engineering GUI]]: |     | +|• [[#pavo_engineering_gui|PAVO Engineering GUI]]:    | 
-^ On-sky Alignment ^^^ +^On-sky Alignment^^| 
-| • [[#Setting_Detector_Gain|Setting Detector Gain]] : |     | +|• [[#setting_detector_gain|Setting Detector Gain]] :|     | 
-| • [[#Take_Backgrounds|Take Backgrounds]]: |     | +|• [[#take_backgrounds|Take Backgrounds]]:    | 
-| • [[#Align_Image|Align Image]]: |     | +|• [[#align_image|Align Image]]:    | 
-| • [[#Align_Pupil|Align Pupil]]: |     | +|• [[#align_pupil|Align Pupil]]:    | 
-| • [[#Save_Alignment_Positions|Save Alignment Positions]]: |     | +|• [[#save_alignment_positions|Save Alignment Positions]]:    | 
-^ Observing with PAVO ^^^ +^Observing with PAVO^^| 
-| • [[#Important_Notes|Important Notes]]: |     | +|• [[#important_notes|Important Notes]]:    | 
-| • [[#Target_Acquistion|Target Acquistion]]: |     | +|• [[#target_acquistion|Target Acquistion]]:    | 
-| • [[#Searching_for_Fringes|Searching for Fringes]]: |     | +|• [[#searching_for_fringes|Searching for Fringes]]:    | 
-| • [[#Detailed_Observing_Notes|Detailed Observing Notes]]: |     | +|• [[#detailed_observing_notes|Detailed Observing Notes]]:    | 
-^ Troubleshooting ^^^ +^Troubleshooting^^| 
-| • [[#Can_t_Find_Fringes|Can't Find Fringes]]: |     | +|• [[#can_t_find_fringes|Can't Find Fringes]]:    | 
-| • [[#Can_t_See_Laser_in_Acquistion|Can't See Laser in Acquistion]]: |     | +|• [[#can_t_see_laser_in_acquistion|Can't See Laser in Acquistion]]:    | 
-| • [[#Can_t_See_Starlight_on_Dectector|Can't See Starlight on Dectector]]: |     | +|• [[#can_t_see_starlight_on_dectector|Can't See Starlight on Dectector]]:    | 
-| • [[#Can_t_See_Laser_in_PAVO_Camera|Can't See Laser in PAVO Camera]]: |     | +|• [[#can_t_see_laser_in_pavo_camera|Can't See Laser in PAVO Camera]]:    | 
-| • [[#Dispersion_is_High|Dispersion is High]]: |     | +|• [[#dispersion_is_high|Dispersion is High]]:    | 
-| • [[#Large_Jump_in_Image_Position|Large Jump in Image Position]]: |     | +|• [[#large_jump_in_image_position|Large Jump in Image Position]]:    | 
-| • [[#LDCs_won_t_Home|LDCs won't Home]]: |     | +|• [[#ldcs_won_t_home|LDCs won't Home]]:    | 
-| • [[#Using_PAVO_with_Secondary_OPLE_and_Secondary_Cosmic_Debris|Using PAVO with Secondary OPLE and Secondary Cosmic Debris]]: |     | +|• [[#using_pavo_with_secondary_ople_and_secondary_cosmic_debris|Using PAVO with Secondary OPLE and Secondary Cosmic Debris]]:    | 
-| • [[#Homing_the_lenslet_stage_motor_1|Homing the lenslet stage (motor 1)]]: |     | +|• [[#homing_the_lenslet_stage_motor_1|Homing the lenslet stage (motor 1)]]:    | 
-| • [[#If_you_need_to_home_only_one_of_the_PAVO_motors|If you need to home only one of the PAVO motors]]: |     | +|• [[#if_you_need_to_home_only_one_of_the_pavo_motors|If you need to home only one of the PAVO motors]]:    | 
-| • [[#No_light_in_the_pupil_plane|No light in the pupil plane]]: |     | +|• [[#no_light_in_the_pupil_plane|No light in the pupil plane]]:    | 
-| • [[#PAVO_Server_-_Error_communicating_with_IFW|PAVO Server - Error communicating with IFW]]: |     | +|• [[#pavo_server_-_error_communicating_with_ifw|PAVO Server - Error communicating with IFW]]:    | 
-^   ^^^+^   ^^|
  
 ---- ----
-Next: [[#Cooling_Down_the_PAVO_Camera|Cooling Down the PAVO Camera]], Previous: [[#Top|Top]], Up: [[#Top|Top]] [[#table_of_contents|Contents]] [[#index|Index]]+ 
 +Next: [[#cooling_down_the_pavo_camera|Cooling Down the PAVO Camera]], Previous: [[#top|Top]], Up: [[#top|Top]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ===== 1 Introduction ===== ===== 1 Introduction =====
-PAVO - Precision Astronomical Visible Observations + 
-These notes are designed to be instructions for basic PAVO operation, assuming familiarity with the rest of the CHARA system. The basic observing information, moving telescopes, moving carts, etc is not covered here.+PAVO - Precision Astronomical Visible Observations These notes are designed to be instructions for basic PAVO operation, assuming familiarity with the rest of the CHARA system. The basic observing information, moving telescopes, moving carts, etc is not covered here.
  
 ---- ----
-Next: [[#Overview_of_Alignment_Steps|Overview of Alignment Steps]], Previous: [[#Introduction|Introduction]], Up: [[#Top|Top]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#overview_of_alignment_steps|Overview of Alignment Steps]], Previous: [[#introduction|Introduction]], Up: [[#top|Top]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ===== 2 Cooling Down the PAVO Camera ===== ===== 2 Cooling Down the PAVO Camera =====
-  + 
-The PAVO camera needs to be cooled down at the beginning of the run. Type the following command into the pavo server: +The PAVO camera needs to be cooled down at the beginning of the run. Type the following command into the pavo server: > coolon -50\\ 
-> coolon -60 +This cools the camera to -50 C. You can read the current temperature from the pavo server. As of 2014, we are doing air cooling (PAVO is no longer hooked up to water cooling). Because of this, the minimum gain setting should be 170 for almost all targets (not 150). If you leave the pavo computer on and the camera plugged-in, then you don’t have to do anything until a PAVO run is over. At the end of the run, type "coolon 0" into the server and it will raise the temperature to 0 Celsius. Once it gets to about 0, it is "safe" to switch anything and everything off without damaging the CCD. 
-This cools the camera to -60 C. You can read the current temperature from the pavo server. As of 2014, we are doing air cooling (PAVO is no longer hooked up to water cooling). Because of this, the minimum gain setting should be 170 for almost all targets (not 150). + 
-If you leave the pavo computer on and the camera plugged-in, then you don’t have to do anything until a PAVO run is over. At the end of the run, type "coolon 0" into the server and it will raise the temperature to 0 Celsius. Once it gets to about 0, it is "safe" to switch anything and everything off without damaging the CCD. +<code> 
-\\  +\\  Previous Notes: When PAVO was hooked up to the water cooling, the camera was cooled down to -70 C. [CCD Cool] had to be turned on through the power gui for this to work. The fan is also on, so nothing should break if CCD cool isn’t on; it will just stop at about -55C and not go any lower. The gain numbers in the current mode only apply to this temperature. 
-Previous Notes: When PAVO was hooked up to the water cooling, the camera was cooled down to -70 C. [CCD Cool] had to be turned on through the power gui for this to work. The fan is also on, so nothing should break if CCD cool isn’t on; it will just stop at about -55C and not go any lower. The gain numbers in the current mode only apply to this temperature.+ 
 +</code>
  
 ---- ----
-Next: [[#Aligning_PAVO_in_the_Lab|Aligning PAVO in the Lab]], Previous: [[#Cooling_Down_the_PAVO_Camera|Cooling Down the PAVO Camera]], Up: [[#Top|Top]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#aligning_pavo_in_the_lab|Aligning PAVO in the Lab]], Previous: [[#cooling_down_the_pavo_camera|Cooling Down the PAVO Camera]], Up: [[#top|Top]] [[#table_of_contents|Contents]] [[#index|Index]] 
 + 
 ===== 3 Overview of Alignment Steps ===== ===== 3 Overview of Alignment Steps =====
 +
 There are three different phases to the PAVO alignment. An overview of these steps is given below: There are three different phases to the PAVO alignment. An overview of these steps is given below:
  
-  - The lab alignment of the PAVO optics is done during the day at the beginning of a PAVO observing run. During this step, we put in the PAVO beam splitters, put in the LDCs, and align beams 1-3 through the mask and lenslet. Details of the lab alignment procedure are given in [[#Aligning_PAVO_in_the_Lab|Aligning PAVO in the Lab]].+  - The lab alignment of the PAVO optics is done during the day at the beginning of a PAVO observing run. During this step, we put in the PAVO beam splitters, put in the LDCs, and align beams 1-3 through the mask and lenslet. Details of the lab alignment procedure are given in [[#aligning_pavo_in_the_lab|Aligning PAVO in the Lab]].
   - Daily alignment of visbeams, dichroics, and M10. The green laser is now bright enough for these steps to be done using the standard CHARA procedures. LDCs should be in place and homed for all telescopes being used by PAVO. It is recommended that the IR beams be aligned to CLIMB on Beams 1-3, in case CLIMB is needed to help search for fringes.   - Daily alignment of visbeams, dichroics, and M10. The green laser is now bright enough for these steps to be done using the standard CHARA procedures. LDCs should be in place and homed for all telescopes being used by PAVO. It is recommended that the IR beams be aligned to CLIMB on Beams 1-3, in case CLIMB is needed to help search for fringes.
-  - On-sky alignment of image and pupil planes. This should be done when switching to a new target/calibrator set in a different part of the sky. Details of the on-sky alignment are given in [[#On-sky_Alignment|On-sky Alignment]]. +  - On-sky alignment of image and pupil planes. This should be done when switching to a new target/calibrator set in a different part of the sky. Details of the on-sky alignment are given in [[#on-sky_alignment|On-sky Alignment]]. 
-\\ +<code> 
 Note: The alignment on Beams 1, 2, and 3 are done using VisBeams 1&2 and VisBeams 2&3. All beam pairs should be aligned to the targets on the east-end table (1&2-1, 1&2-2, 2&3-2, 2&3-3). Note: The alignment on Beams 1, 2, and 3 are done using VisBeams 1&2 and VisBeams 2&3. All beam pairs should be aligned to the targets on the east-end table (1&2-1, 1&2-2, 2&3-2, 2&3-3).
 +
 +</code>
  
 ---- ----
-Next: [[#Description_of_PAVO_Server_and_GUI|Description of PAVO Server and GUI]], Previous: [[#Overview_of_Alignment_Steps|Overview of Alignment Steps]], Up: [[#Top|Top]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#description_of_pavo_server_and_gui|Description of PAVO Server and GUI]], Previous: [[#overview_of_alignment_steps|Overview of Alignment Steps]], Up: [[#top|Top]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ===== 4 Aligning PAVO in the Lab ===== ===== 4 Aligning PAVO in the Lab =====
 +
 These instructions are for aligning the PAVO optics at the start of a run. After the PAVO beam splitters are put into the path and the PAVO optics are aligned, they shouldn’t need to readjusted for the remainder of the run. The standard CHARA alignment (visbeams, dichroics, M10) should be done on a nightly basis. These instructions are for aligning the PAVO optics at the start of a run. After the PAVO beam splitters are put into the path and the PAVO optics are aligned, they shouldn’t need to readjusted for the remainder of the run. The standard CHARA alignment (visbeams, dichroics, M10) should be done on a nightly basis.
  
-| • [[#Basic_Alignment_of_PAVO_in_the_Lab|Basic Alignment of PAVO in the Lab]]: |     | +|• [[#basic_alignment_of_pavo_in_the_lab|Basic Alignment of PAVO in the Lab]]:    | 
-| • [[#Checking_Alignment_on_PAVO_Lenses|Checking Alignment on PAVO Lenses]]: |     | +|• [[#checking_alignment_on_pavo_lenses|Checking Alignment on PAVO Lenses]]:    | 
-| • [[#Checking_Alignment_on_PAVO_Camera|Checking Alignment on PAVO Camera]]: |     | +|• [[#checking_alignment_on_pavo_camera|Checking Alignment on PAVO Camera]]:    | 
-| • [[#Align_Wavelength_Scale_in_Lab|Align Wavelength Scale in Lab]]: |     | +|• [[#align_wavelength_scale_in_lab|Align Wavelength Scale in Lab]]:    | 
-| • [[#Adjusting_PAVO_Coarse_Alignment|Adjusting PAVO Coarse Alignment]]: |     | +|• [[#adjusting_pavo_coarse_alignment|Adjusting PAVO Coarse Alignment]]:    | 
-| • [[#Changing_focus|Changing focus]]: |     | +|• [[#changing_focus|Changing focus]]:    | 
-| • [[#General_Alignment_Notes|General Alignment Notes]]: |     |+|• [[#general_alignment_notes|General Alignment Notes]]:    |
  
 ---- ----
-Next: [[#Checking_Alignment_on_PAVO_Lenses|Checking Alignment on PAVO Lenses]], Previous: [[#Aligning_PAVO_in_the_Lab|Aligning PAVO in the Lab]], Up: [[#Aligning_PAVO_in_the_Lab|Aligning PAVO in the Lab]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#checking_alignment_on_pavo_lenses|Checking Alignment on PAVO Lenses]], Previous: [[#aligning_pavo_in_the_lab|Aligning PAVO in the Lab]], Up: [[#aligning_pavo_in_the_lab|Aligning PAVO in the Lab]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 4.1 Basic Alignment of PAVO in the Lab ==== ==== 4.1 Basic Alignment of PAVO in the Lab ====
  
   * Open the PAVO server and PAVO gui. Check the current temperature from the pavo server. If it is not cooled, then type “coolon -60” into the pavo server to cool the camera.   * Open the PAVO server and PAVO gui. Check the current temperature from the pavo server. If it is not cooled, then type “coolon -60” into the pavo server to cool the camera.
-  * Home the PAVO motors by typing "zzero" into the pavo server - only do this if there has been a power outage or if it has been a long time since PAVO was last aligned. You can check the zaber positions on the engineering gui to see if the motors need to be homed ([[#PAVO_Engineering_GUI|PAVO Engineering GUI]]). The zzero command will set the motors to the last recorded positions after homing. Visually check to make sure the PAVO optics are moving during the homing sequence. As of December 2015, please see the trouble shooting note in [[#Homing_the_lenslet_stage_motor_1|Homing the lenslet stage (motor 1)]].+  * Home the PAVO motors by typing "zzero" into the pavo server - only do this if there has been a power outage or if it has been a long time since PAVO was last aligned. You can check the zaber positions on the engineering gui to see if the motors need to be homed ([[#pavo_engineering_gui|PAVO Engineering GUI]]). The zzero command will set the motors to the last recorded positions after homing. Visually check to make sure the PAVO optics are moving during the homing sequence. As of December 2015, please see the trouble shooting note in [[#homing_the_lenslet_stage_motor_1|Homing the lenslet stage (motor 1)]]
 +  * After homing the PAVO motors, check the PAVO Zaber Engineering GUI to make sure the last two stages (B1 Split and B2 Split) go back to their last positions. The last stage has been getting stuck at 0 and needs to be set manually. The current position of B1 Split is 62421 and B2 Split is 105025 (as of 2020Aug18).
   * Put the PAVO beam splitters into the beam path. The mounts are at the edge of the Classic table.   * Put the PAVO beam splitters into the beam path. The mounts are at the edge of the Classic table.
   * Align Visbeams using pico 3 (B1&2-1, B1&2-2, B2&3-2, B2&3-3) using the visbeams target on the East table.   * Align Visbeams using pico 3 (B1&2-1, B1&2-2, B2&3-2, B2&3-3) using the visbeams target on the East table.
Line 118: Line 138:
   * Use index card to locate center of L2 and use PAVO gui to refine the M1 alignment on B1, B2, B3   * Use index card to locate center of L2 and use PAVO gui to refine the M1 alignment on B1, B2, B3
   * Align beams through prisms and then through the holes in the mask   * Align beams through prisms and then through the holes in the mask
-    * - Close shutters to look at each beam individually +      * - Close shutters to look at each beam individually 
-    * - Move L2 on B1, B2, B3 using the PAVO gui (500 step size) to align the laser beam through the prism and the hole in the mask. +      * - Move L2 on B1, B2, B3 using the PAVO gui (500 step size) to align the laser beam through the prism and the hole in the mask. 
-    * - Note: reflections from the front and back of the pavo beam splitters cause the green laser to have two spots (one above the other). Align the top spot on each beam through appropriate hole in the mask. It is often helpful to remove the LDCs during this step because they can create additional reflections. +      * - Note: reflections from the front and back of the pavo beam splitters cause the green laser to have two spots (one above the other). Align the top spot on each beam through appropriate hole in the mask. It is often helpful to remove the LDCs during this step because they can create additional reflections. 
-    * - When starting this alignment step, check to make sure that the top laser spot is going through the correct prism stage for that beam. If the alignment is off, then the correct spot might miss the prism altogether. Use an index card to check. The laser might also go through more than one prism if the beam is too low (making the beam veer off the mask). Check with an index card to make sure the top laser spot is going through only one appropriate prism. +      * - When starting this alignment step, check to make sure that the top laser spot is going through the correct prism stage for that beam. If the alignment is off, then the correct spot might miss the prism altogether. Use an index card to check. The laser might also go through more than one prism if the beam is too low (making the beam veer off the mask). Check with an index card to make sure the top laser spot is going through only one appropriate prism. 
-    * - Use mask in position [3] - it should be in place if [mask out] is not pressed. Looking toward the PAVO camera, the correct mask is the one on the far left. Use ENG gui to select the mask if it is not in the correct position. +      * - Use mask in position [3] - it should be in place if [mask out] is not pressed. Looking toward the PAVO camera, the correct mask is the one on the far left. Use ENG gui to select the mask if it is not in the correct position. 
-    * - Mask holes from top to bottom (non-redundant spacing): +      * - Mask holes from top to bottom (non-redundant spacing): 
-      * o 3 +        * o 3 
-      * o 2 +        * o 2 
-      * o 1 +        * o 1 
-    * - If the beams are aligned properly, you can see laser on other side of mask (use index card to check). Please check carefully to make sure the TOP laser spot is the one going through the mask for each hole. This can be confirmed with the red laser (if it is aligned to the CHARA system), since it will only have one spot.+      * - If the beams are aligned properly, you can see laser on other side of mask (use index card to check). Please check carefully to make sure the TOP laser spot is the one going through the mask for each hole. This can be confirmed with the red laser (if it is aligned to the CHARA system), since it will only have one spot.
   * Take off the PAVO black box cover   * Take off the PAVO black box cover
   * Align pupil so that it goes through the LENSLET (small square piece of glass in front of camera)   * Align pupil so that it goes through the LENSLET (small square piece of glass in front of camera)
-    * - Click [LENSLET] on the PAVO gui to put the lenslet into position. +      * - Click [LENSLET] on the PAVO gui to put the lenslet into position. 
-    * - Change filter to FB500-40 for the green laser (LP02-568 for red laser). +      * - Change filter to FB500-40 for the green laser (LP02-568 for red laser). 
-    * - Put small, square, paper target on the lenslet stand for reference +      * - Put small, square, paper target on the lenslet stand for reference 
-    * - Adjust pupil using the PAVO gui so that each beam is centered in the center target box (the beams will be overlap at this point, so align each beam one at a time). +      * - Adjust pupil using the PAVO gui so that each beam is centered in the center target box (the beams will be overlap at this point, so align each beam one at a time). 
-    * - If the flux in the laser spot starts to fade, adjust the image plane using the PAVO gui to bring flux back to a good quality. +      * - If the flux in the laser spot starts to fade, adjust the image plane using the PAVO gui to bring flux back to a good quality. 
-    * - If it’s a long way off, it will be necessary to alternate between moving pupil and image planes +      * - If it’s a long way off, it will be necessary to alternate between moving pupil and image planes 
-      * + e.g. if laser spot needs to move up, move pupil "up" and image "down," but may have to occasionally adjust left/right to keep laser going through mask+        * + e.g. if laser spot needs to move up, move pupil "up" and image "down," but may have to occasionally adjust left/right to keep laser going through mask
   * Type "zwrite" in pavo server to save current positions   * Type "zwrite" in pavo server to save current positions
   * Follow steps in Sections 4.2, 4.3, and 4.4 to check the alignment on the PAVO lenses, check the alignment on the detector, and to align the wavelength scale.   * Follow steps in Sections 4.2, 4.3, and 4.4 to check the alignment on the PAVO lenses, check the alignment on the detector, and to align the wavelength scale.
   * Leave PAVO shutters open when exiting server   * Leave PAVO shutters open when exiting server
-    * - This will save M1 mirror positions in the up/open position+      * - This will save M1 mirror positions in the up/open position
   * Do a tip/tilt alignment after completing the PAVO alignment   * Do a tip/tilt alignment after completing the PAVO alignment
-    * - This will compensate for adjusting VisBeams after putting in the PAVO beam splitters+      * - This will compensate for adjusting VisBeams after putting in the PAVO beam splitters
   * Put the black box cover back in place over PAVO camera. Slide the front and side panels back on the PAVO table.   * Put the black box cover back in place over PAVO camera. Slide the front and side panels back on the PAVO table.
  
 ---- ----
-Next: [[#Checking_Alignment_on_PAVO_Camera|Checking Alignment on PAVO Camera]], Previous: [[#Basic__Alignment_of_PAVO_in_the_Lab|Basic Alignment of PAVO in the Lab]], Up: [[#Aligning_PAVO_in_the_Lab|Aligning PAVO in the Lab]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#checking_alignment_on_pavo_camera|Checking Alignment on PAVO Camera]], Previous: [[#basic_alignment_of_pavo_in_the_lab|Basic Alignment of PAVO in the Lab]], Up: [[#aligning_pavo_in_the_lab|Aligning PAVO in the Lab]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 4.2 Checking Alignment on PAVO Lenses ==== ==== 4.2 Checking Alignment on PAVO Lenses ====
  
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 ---- ----
-Next: [[#Align_Wavelength_Scale_in_Lab|Align Wavelength Scale in Lab]], Previous: [[#Checking_Alignment_on_PAVO_Lenses|Checking Alignment on PAVO Lenses]], Up: [[#Aligning_PAVO_in_the_Lab|Aligning PAVO in the Lab]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#align_wavelength_scale_in_lab|Align Wavelength Scale in Lab]], Previous: [[#checking_alignment_on_pavo_lenses|Checking Alignment on PAVO Lenses]], Up: [[#aligning_pavo_in_the_lab|Aligning PAVO in the Lab]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 4.3 Checking Alignment on PAVO Camera ==== ==== 4.3 Checking Alignment on PAVO Camera ====
 +
 After doing the lab alignment, it is useful to check that the laser light is hitting the PAVO detector. The corner cubes should be in for these steps: After doing the lab alignment, it is useful to check that the laser light is hitting the PAVO detector. The corner cubes should be in for these steps:
  
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   * Close the laser shutter and set to ND 5.0.   * Close the laser shutter and set to ND 5.0.
   * Click [IMAGE] to send the optics to view the image plane. After the optics finish moving and the display starts updating again, set the filter to FB500-40 for the green laser. Set the laser to ND 4 or 5, so that you can see the spots without saturating the detector. Note that the coating on the PAVO Beam 2 splitter is faint, so you might have to close the other beam to see the spot from Beam 2.   * Click [IMAGE] to send the optics to view the image plane. After the optics finish moving and the display starts updating again, set the filter to FB500-40 for the green laser. Set the laser to ND 4 or 5, so that you can see the spots without saturating the detector. Note that the coating on the PAVO Beam 2 splitter is faint, so you might have to close the other beam to see the spot from Beam 2.
-    * - You mainly want to check that the spots are roughly aligned veritcally - the final alignment of the image plane will be done on sky. The green laser spots should be slightly to the right of center so that the starlight will be aligned roughly in the center for the observing filter wavelengths. +      * - You mainly want to check that the spots are roughly aligned veritcally - the final alignment of the image plane will be done on sky. The green laser spots should be slightly to the right of center so that the starlight will be aligned roughly in the center for the observing filter wavelengths. 
-    * - If one of the beams is badly out of focus compared to the other two, then turn off the PAVO camera by clicking [GO/STOP]. Go into the lab to confirm that the top laser spot is going through the mask on that beam. If the focus is still very bad, even after the correct spot is going through the mask, then notify the PAVO technical staff. +      * - If one of the beams is badly out of focus compared to the other two, then turn off the PAVO camera by clicking [GO/STOP]. Go into the lab to confirm that the top laser spot is going through the mask on that beam. If the focus is still very bad, even after the correct spot is going through the mask, then notify the PAVO technical staff. 
-    * - If not light is hitting the detector in the image plane, then turn off the PAVO camera by clicking [GO/STOP] and go into the lab. Set the laser to ND 0 and confirm that the laser is going through the image plane lens and that it is also entering the camera. This can be done by using an index card or by looking to see if the beam is reflecting off the metal ring surrounding the camera entrance hole. If it is not going through the image lens or camera, then you will need to adjust the position of the the image stage (motor 1 when in the image plane) so that the laser is going into the camera and hitting the detector - see [[#PAVO_Engineering_GUI|PAVO Engineering GUI]] for instructions on how to move the image stage - for experts only. Current positions for motor 1 (as of 2015Jul): lenslet - 461424, image plane - 90132.+      * - If not light is hitting the detector in the image plane, then turn off the PAVO camera by clicking [GO/STOP] and go into the lab. Set the laser to ND 0 and confirm that the laser is going through the image plane lens and that it is also entering the camera. This can be done by using an index card or by looking to see if the beam is reflecting off the metal ring surrounding the camera entrance hole. If it is not going through the image lens or camera, then you will need to adjust the position of the the image stage (motor 1 when in the image plane) so that the laser is going into the camera and hitting the detector - see [[#pavo_engineering_gui|PAVO Engineering GUI]] for instructions on how to move the image stage - for experts only. Current positions for motor 1 (as of 2015Jul): lenslet - 461424, image plane - 90132.
   * Type "zwrite" in pavo server to save current positions   * Type "zwrite" in pavo server to save current positions
  
 ---- ----
-Next: [[#Adjusting_PAVO_Coarse_Alignment|Adjusting PAVO Coarse Alignment]], Previous: [[#Checking_Alignment_on_PAVO_Camera|Checking Alignment on PAVO Camera]], Up: [[#Aligning_PAVO_in_the_Lab|Aligning PAVO in the Lab]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#adjusting_pavo_coarse_alignment|Adjusting PAVO Coarse Alignment]], Previous: [[#checking_alignment_on_pavo_camera|Checking Alignment on PAVO Camera]], Up: [[#aligning_pavo_in_the_lab|Aligning PAVO in the Lab]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 4.4 Align Wavelength Scale in Lab ==== ==== 4.4 Align Wavelength Scale in Lab ====
- +
 Align wavelength scale of spectrum. The PAVO code is currently set to use the green laser wavelength for the alignment. Experts only for now! Align wavelength scale of spectrum. The PAVO code is currently set to use the green laser wavelength for the alignment. Experts only for now!
  
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   * Look at XY numbers on pavo server (two numbers; centroid of 4 pixels). If the wavelength scale is aligned, the XY numbers should fluctuate around 0,0. (XY numbers typically fluctuate from about +-0.2 to +-0.6, when aligned they drop to about +-0.01.)   * Look at XY numbers on pavo server (two numbers; centroid of 4 pixels). If the wavelength scale is aligned, the XY numbers should fluctuate around 0,0. (XY numbers typically fluctuate from about +-0.2 to +-0.6, when aligned they drop to about +-0.01.)
   * Adjust the position of the lenslet using the engineering gui:   * Adjust the position of the lenslet using the engineering gui:
-    * - 1 lenslet [<] 401522(1) [>] [-] 10 [+] +      * - 1 lenslet [<] 401522(1) [>] [-] 10 [+] 
-    * - Click [-] [+] to adjust step size: a step size of 100 is recommended. +      * - Click [-] [+] to adjust step size: a step size of 100 is recommended. 
-    * - Click [<] [>] to move the lenslet position, while watching the XY values.+      * - Click [<] [>] to move the lenslet position, while watching the XY values.
   * If X is too big, move the lenslet to the left [<]. If X is too negative, move the lenslet to the right [>].   * If X is too big, move the lenslet to the left [<]. If X is too negative, move the lenslet to the right [>].
-  * When the wavelength scale is aligned, the bright band will be about 2 pixels to the left of the center (see [[#figure_4.1|Figure 4.1]]). +  * When the wavelength scale is aligned, the bright band will be about 2 pixels to the left of the center (see [[#figure_41|Figure 4.1]]). 
-  * Type "zwrite" in pavo server to save current positions. Do this BEFORE leaving the lenslet plane, otherwise the updated positions will not be saved.\\ +  * Type "zwrite" in pavo server to save current positions. Do this BEFORE leaving the lenslet plane, otherwise the updated positions will not be saved. \\ ==Figure 4.1== 
-==Figure 4.1==  + 
-{{chara:files:pavo_wavelength_correct.jpg|pavo_wavelength_correct}} \\ +{{:chara:files:pavo_wavelength_correct.jpg|pavo_wavelength_correct}} \\ Alignment of the wavelength scale. When the wavelength scale is aligned, the bright band will be about 2 pixels to the left of the center when using the green laser.
-Alignment of the wavelength scale. When the wavelength scale is aligned, the bright band will be about 2 pixels to the left of the center when using the green laser.+
  
 ---- ----
-Next: [[#Changing_focus|Changing focus]], Previous: [[#Align_Wavelength_Scale_in_Lab|Align Wavelength Scale in Lab]], Up: [[#Aligning_PAVO_in_the_Lab|Aligning PAVO in the Lab]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#changing_focus|Changing focus]], Previous: [[#align_wavelength_scale_in_lab|Align Wavelength Scale in Lab]], Up: [[#aligning_pavo_in_the_lab|Aligning PAVO in the Lab]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 4.5 Adjusting PAVO Coarse Alignment ==== ==== 4.5 Adjusting PAVO Coarse Alignment ====
  
-| • [[#Step_1_-_Correct_for_offset_on_L1|Step 1 - Correct for offset on L1]] : |     | +|• [[#step_1_-_correct_for_offset_on_l1|Step 1 - Correct for offset on L1]] :|     | 
-| • [[#Step_2_-_Correct_for_offset_on_L2|Step 2 - Correct for offset on L2]] : |     |+|• [[#step_2_-_correct_for_offset_on_l2|Step 2 - Correct for offset on L2]] :|     | 
 These are steps to correct severe misalignments in the PAVO system. Do not adjust without prior approval from the PAVO instrument PI. These are steps to correct severe misalignments in the PAVO system. Do not adjust without prior approval from the PAVO instrument PI.
  
 ---- ----
-Next: [[#Step_2_-_Correct_for_offset_on_L2|Step 2 - Correct for offset on L2]], Previous: [[#Adjusting_PAVO_Coarse_Alignment|Adjusting PAVO Coarse Alignment]], Up: [[#Adjusting_PAVO_Coarse_Alignment|Adjusting PAVO Coarse Alignment]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#step_2_-_correct_for_offset_on_l2|Step 2 - Correct for offset on L2]], Previous: [[#adjusting_pavo_coarse_alignment|Adjusting PAVO Coarse Alignment]], Up: [[#adjusting_pavo_coarse_alignment|Adjusting PAVO Coarse Alignment]] [[#table_of_contents|Contents]] [[#index|Index]] 
 === 4.5.1 Step 1 - Correct for offset on L1 === === 4.5.1 Step 1 - Correct for offset on L1 ===
  
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 ---- ----
-Previous: [[#Step_1_-_Correct_for_offset_on_L1|Step 1 - Correct for offset on L1]], Up: [[#Adjusting_PAVO_Coarse_Alignment|Adjusting PAVO Coarse Alignment]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Previous: [[#step_1_-_correct_for_offset_on_l1|Step 1 - Correct for offset on L1]], Up: [[#adjusting_pavo_coarse_alignment|Adjusting PAVO Coarse Alignment]] [[#table_of_contents|Contents]] [[#index|Index]] 
 === 4.5.2 Step 2 - Correct for offset on L2 === === 4.5.2 Step 2 - Correct for offset on L2 ===
  
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 ---- ----
-Next: [[#General_Alignment_Notes|General Alignment Notes]], Previous: [[#Adjusting_PAVO_Coarse_Alignment|Adjusting PAVO Coarse Alignment]], Up: [[#Aligning_PAVO_in_the_Lab|Aligning PAVO in the Lab]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#general_alignment_notes|General Alignment Notes]], Previous: [[#adjusting_pavo_coarse_alignment|Adjusting PAVO Coarse Alignment]], Up: [[#aligning_pavo_in_the_lab|Aligning PAVO in the Lab]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 4.6 Changing focus ==== ==== 4.6 Changing focus ====
 +
 If the L1 or M2 mounts have been physically moved on the table during the course alignment, the focus of the beam might need to be adjusted. Do not adjust without prior approval from the PAVO instrument PI. If the L1 or M2 mounts have been physically moved on the table during the course alignment, the focus of the beam might need to be adjusted. Do not adjust without prior approval from the PAVO instrument PI.
  
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 ---- ----
-Previous: [[#Changing_focus|Changing focus]], Up: [[#Aligning_PAVO_in_the_Lab|Aligning PAVO in the Lab]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Previous: [[#changing_focus|Changing focus]], Up: [[#aligning_pavo_in_the_lab|Aligning PAVO in the Lab]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 4.7 General Alignment Notes ==== ==== 4.7 General Alignment Notes ====
  
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 ---- ----
-Next: [[#Starting_PAVO_Software|Starting PAVO Software]], Previous: [[#Aligning_PAVO_in_the_Lab|Aligning PAVO in the Lab]], Up: [[#Top|Top]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#starting_pavo_software|Starting PAVO Software]], Previous: [[#aligning_pavo_in_the_lab|Aligning PAVO in the Lab]], Up: [[#top|Top]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ===== 5 Description of PAVO Server and GUI ===== ===== 5 Description of PAVO Server and GUI =====
-  
  
-| • [[#PAVO_Server_Status_Window|PAVO Server/Status Window]]: |     | +|• [[#pavo_server_status_window|PAVO Server/Status Window]]:    | 
-| • [[#PAVO_GUI|PAVO GUI]]: |     | +|• [[#pavo_gui|PAVO GUI]]:    | 
-| • [[#PAVO_Engineering_GUI|PAVO Engineering GUI]]: |     |+|• [[#pavo_engineering_gui|PAVO Engineering GUI]]:    |
  
 ---- ----
-Next: [[#PAVO_GUI|PAVO GUI]], Previous: [[#Description_of_PAVO_Server_and_GUI|Description of PAVO Server and GUI]], Up: [[#Description_of_PAVO_Server_and_GUI|Description of PAVO Server and GUI]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#pavo_gui|PAVO GUI]], Previous: [[#description_of_pavo_server_and_gui|Description of PAVO Server and GUI]], Up: [[#description_of_pavo_server_and_gui|Description of PAVO Server and GUI]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 5.1 PAVO Server/Status Window ==== ==== 5.1 PAVO Server/Status Window ====
-  + 
-This Section describes the parameters listed on the top of the PAVO server display (see [[#figure_5.1|Figure 5.1]]) and on the PAVO status window. +This Section describes the parameters listed on the top of the PAVO server display (see [[#figure_51|Figure 5.1]]) and on the PAVO status window. 
-===Figure 5.1=== + 
-{{chara:files:pavo_server.jpg|pavo_server}}\\  +=== Figure 5.1 === 
- PAVO Server display + 
-\\  +{{:chara:files:pavo_server.jpg|pavo_server}} \\ PAVO Server display 
-The top of the server lists a variety of settings and parameters:+<code> 
 + 
 +\\  The top of the server lists a variety of settings and parameters: 
 + 
 +</code>
  
   * Local Time   * Local Time
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   * SNoff/on - signal to noise cutoff and turn-on values   * SNoff/on - signal to noise cutoff and turn-on values
   * DTIME - damping time   * DTIME - damping time
-\\ + 
 +<code>
 Below this panel, provides information on fringe tracking and cart positions: Below this panel, provides information on fringe tracking and cart positions:
 +
 +</code>
  
   * Left-side panel - Baseline Information   * Left-side panel - Baseline Information
-    * - Bline - Baseline pairs for beams 1&2, 2&3, and 1&3 +      * - Bline - Baseline pairs for beams 1&2, 2&3, and 1&3 
-    * - GD - group delay +      * - GD - group delay 
-    * - S/N - look here to set SNoff/SNon values +      * - S/N - look here to set SNoff/SNon values 
-    * - Tint - total itime locked on fringes +      * - Tint - total itime locked on fringes 
-    * - Cnts - counts +      * - Cnts - counts 
-    * - V2 V2C V2S V2CS - different visibility estimates +      * - V2 V2C V2S V2CS - different visibility estimates 
-    * - Disp - glass dispersion+      * - Disp - glass dispersion
   * Right-side panel - Telescope Information   * Right-side panel - Telescope Information
-    * - State - status of the cart is given by: +      * - State - status of the cart is given by: 
-      * + OFF - cart off, not searching +        * + OFF - cart off, not searching 
-      * + AOFF - automatic search but not locked on fringes +        * + AOFF - automatic search but not locked on fringes 
-      * + AON - locked on fringe +        * + AON - locked on fringe 
-      * + AMOV - moving cart fringes +        * + AMOV - moving cart fringes 
-      * + FIX - cart active but fixed as reference +        * + FIX - cart active but fixed as reference 
-    * - POS - gives cart offset for each beam +      * - POS - gives cart offset for each beam 
-    * - Vel - velocity of cart +      * - Vel - velocity of cart 
-    * - TL - instantaneous time locked without losing fringes +      * - TL - instantaneous time locked without losing fringes 
-    * - S - indicates whether shutter is open/closed (X means closed)+      * - S - indicates whether shutter is open/closed (X means closed)
  
 ---- ----
-Next: [[#PAVO_Engineering_GUI|PAVO Engineering GUI]], Previous: [[#PAVO_Server_Status_Window|PAVO Server/Status Window]], Up: [[#Description_of_PAVO_Server_and_GUI|Description of PAVO Server and GUI]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#pavo_engineering_gui|PAVO Engineering GUI]], Previous: [[#pavo_server_status_window|PAVO Server/Status Window]], Up: [[#description_of_pavo_server_and_gui|Description of PAVO Server and GUI]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 5.2 PAVO GUI ==== ==== 5.2 PAVO GUI ====
-[[#figure_5.2|Figure 5.2]] shows a screenshot of the PAVO GUI. + 
-===Figure 5.2=== +[[#figure_52|Figure 5.2]] shows a screenshot of the PAVO GUI. 
-{{chara:files:pavo_gui.jpg|pavo_gui}} \\ + 
-The PAVO GUI used to control the instrument. Green indicates that a button is active. In this screenshot, autosave is turned on and the B1, B2, B3 shutters are open. The camera is off; the [GO/STOP] button will turn green when the camera is on. The mask is in (the [MASK OUT] button will turn green when the mask is out. +=== Figure 5.2 === 
-\\  + 
-Detailed description:+{{:chara:files:pavo_gui.jpg|pavo_gui}}The PAVO GUI used to control the instrument. Green indicates that a button is active. In this screenshot, autosave is turned on and the B1, B2, B3 shutters are open. The camera is off; the [GO/STOP] button will turn green when the camera is on. The mask is in (the [MASK OUT] button will turn green when the mask is out. 
 +<code> 
 + 
 +\\  Detailed description: 
 + 
 +</code>
  
   * GO/STOP: Turns on and off the camera. The button turns green when the camera is on. Turn off camera if not being used.   * GO/STOP: Turns on and off the camera. The button turns green when the camera is on. Turn off camera if not being used.
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   * FILTER: Menu to select filter. The filter is automatically set for on-sky alignment and fringe searching when clicking the IMAGE and LENSLET buttons.   * FILTER: Menu to select filter. The filter is automatically set for on-sky alignment and fringe searching when clicking the IMAGE and LENSLET buttons.
   * DISPLAY: Turns on camera display for viewing the IMAGE/LENSLET/PUPIL.   * DISPLAY: Turns on camera display for viewing the IMAGE/LENSLET/PUPIL.
-  * Gain: Set camera gain - see instructions in [[#On-sky_Alignment|On-sky Alignment]].+  * Gain: Set camera gain - see instructions in [[#on-sky_alignment|On-sky Alignment]].
   * Average: Number of frames to average in DISPLAY.   * Average: Number of frames to average in DISPLAY.
-  * IMAGE: Switch to the IMAGE plane. See [[#figure_5.3|Figure 5.3]]. (Wait for optics to move.) +  * IMAGE: Switch to the IMAGE plane. See [[#figure_53|Figure 5.3]]. (Wait for optics to move.) 
-  * LENSLET: Move the LENSLET into position. See [[#figure_5.4|Figure 5.4]] and [[#figure_5.5|Figure 5.5]]. (Wait for optics to move.)+  * LENSLET: Move the LENSLET into position. See [[#figure_54|Figure 5.4]] and [[#figure_55|Figure 5.5]]. (Wait for optics to move.)
   * PUPIL: Switch to the PUPIL plane. (Wait for optics to move.)   * PUPIL: Switch to the PUPIL plane. (Wait for optics to move.)
   * ENG: Brings up engineering GUI to change/monitor positions of PAVO optics.   * ENG: Brings up engineering GUI to change/monitor positions of PAVO optics.
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   * STATUS: Bring up display of the PAVO server status.   * STATUS: Bring up display of the PAVO server status.
   * DELAY: Bring up plot of how the cart delay changes over time.   * DELAY: Bring up plot of how the cart delay changes over time.
-  * PLOTS: Bring up fringe waterfall plots. See [[#figure_5.6|Figure 5.6]].+  * PLOTS: Bring up fringe waterfall plots. See [[#figure_56|Figure 5.6]].
   * REOPEN   * REOPEN
   * QUIT   * QUIT
-\\  + 
-===Figure 5.3=== +=== Figure 5.3 === 
-{{chara:files:pavo_maskin.jpg|pavo_maskin}}{{chara:files:pavo_maskout.jpg|pavo_maskout}} \\ + 
-PAVO camera display when viewing the image plane on-sky. The three spots show the star light from Beam 1, 2, and 3, respectively from top to bottom. The colored boxes mark the position of each mask hole and are placed by clicking the TARGETS button on the PAVO GUI. The panel on the left shows the image plane with the mask in. The panel on the right shows the image plane with the mask out. +{{:chara:files:pavo_maskin.jpg|pavo_maskin}}{{:chara:files:pavo_maskout.jpg|pavo_maskout}}PAVO camera display when viewing the image plane on-sky. The three spots show the star light from Beam 1, 2, and 3, respectively from top to bottom. The colored boxes mark the position of each mask hole and are placed by clicking the TARGETS button on the PAVO GUI. The panel on the left shows the image plane with the mask in. The panel on the right shows the image plane with the mask out. 
-===Figure 5.4=== + 
-{{chara:files:pavo_lenslet.jpg|pavo_lenslet}}\\ +=== Figure 5.4 === 
-PAVO camera display when viewing the lenslet on-sky. The pupil is segmented by the lenslet array (appearing as vertical bands). Each lenslet band is dispersed by the prism with wavelength going from left to right in each band. The dark spot in the center is the central obscuration from the telescope. + 
-===Figure 5.5=== +{{:chara:files:pavo_lenslet.jpg|pavo_lenslet}}PAVO camera display when viewing the lenslet on-sky. The pupil is segmented by the lenslet array (appearing as vertical bands). Each lenslet band is dispersed by the prism with wavelength going from left to right in each band. The dark spot in the center is the central obscuration from the telescope. 
-{{chara:files:pavo_labfringes_beam12_2016may19.jpg|pavo_labfringes_beam12_2016may19}} \\ + 
-{{chara:files:pavo_labfringes_beam23_2016may19.jpg|pavo_labfringes_beam23_2016may19}} \\ +=== Figure 5.5 === 
-Lab fringes on PAVO in a narrow bandpass. The two panels show the fringes at different frequencies on Beams 1&2 (left) and Beams 2&3 (right). + 
-===Figure 5.6=== +{{:chara:files:pavo_labfringes_beam12_2016may19.jpg|pavo_labfringes_beam12_2016may19}}{{:chara:files:pavo_labfringes_beam23_2016may19.jpg|pavo_labfringes_beam23_2016may19}}Lab fringes on PAVO in a narrow bandpass. The two panels show the fringes at different frequencies on Beams 1&2 (left) and Beams 2&3 (right). 
-{{chara:files:pavo_fringes.jpg|pavo_fringes}} \\ + 
-PAVO waterfall display with fringes on Baseline 2. +=== Figure 5.6 === 
-\\ \\ \\ \\ \\ + 
----- +{{:chara:files:pavo_fringes.jpg|pavo_fringes}}PAVO waterfall display with fringes on Baseline 2. - Previous: [[#pavo_gui|PAVO GUI]], Up: [[#description_of_pavo_server_and_gui|Description of PAVO Server and GUI]] [[#table_of_contents|Contents]] [[#index|Index]] 
-Previous: [[#PAVO_GUI|PAVO GUI]], Up: [[#Description_of_PAVO_Server_and_GUI|Description of PAVO Server and GUI]] [[#table_of_Contents|Contents]] [[#Index|Index]]+
 ==== 5.3 PAVO Engineering GUI ==== ==== 5.3 PAVO Engineering GUI ====
-[[#figure_5.7|Figure 5.7]] shows the PAVO Engineering GUI which can be opened by clicking the [ENG] button on the PAVO GUI. The Engineering gui is no longer needed as much as it used to be. You may need it to set the mask to the right position at the start of the lab alignment ([[#Basic_Alignment_of_PAVO_in_the_Lab|Basic Alignment of PAVO in the Lab]]), to adjust the wavelength scale ([[#Align_Wavelength_Scale_in_Lab|Align Wavelength Scale in Lab]]), or to correct for one of the lenses reaching the end of its limit ([[#Large_Jump_in_Image_Position|Large Jump in Image Position]]). + 
-Only change these positions if you are an expert who knows what you are doing. To adjust the position of one of the optics, turn the power for that motor on using the column on the left-hand side. Set the step size using [-] and [+] buttons. Adjust the position using the [<] and [>] buttons. There are pre-defined positions stored in the 0,1,2,3 buttons on the right-hand side. For instance, the mask position is [3] if the mask is in (mask out should be another pre-defined position). For the B1,B2,B3 M1 shutters, 0=open, 1=closed. +[[#figure_57|Figure 5.7]] shows the PAVO Engineering GUI which can be opened by clicking the [ENG] button on the PAVO GUI. The Engineering gui is no longer needed as much as it used to be. You may need it to set the mask to the right position at the start of the lab alignment ([[#basic_alignment_of_pavo_in_the_lab|Basic Alignment of PAVO in the Lab]]), to adjust the wavelength scale ([[#align_wavelength_scale_in_lab|Align Wavelength Scale in Lab]]), or to correct for one of the lenses reaching the end of its limit ([[#large_jump_in_image_position|Large Jump in Image Position]]). Only change these positions if you are an expert who knows what you are doing. To adjust the position of one of the optics, turn the power for that motor on using the column on the left-hand side. Set the step size using [-] and [+] buttons. Adjust the position using the [<] and [>] buttons. There are pre-defined positions stored in the 0,1,2,3 buttons on the right-hand side. For instance, the mask position is [3] if the mask is in (mask out should be another pre-defined position). For the B1,B2,B3 M1 shutters, 0=open, 1=closed. 
-===Figure 5.7=== + 
-{{chara:files:pavo_eng.jpg|pavo_eng}}\\ +=== Figure 5.7 === 
-PAVO Engineering GUI. + 
-\\ +{{:chara:files:pavo_eng.jpg|pavo_eng}}PAVO Engineering GUI. 
----- +<code> 
-Next: [[#On-sky_Alignment|On-sky Alignment]], Previous: [[#Description_of_PAVO_Server_and_GUI|Description of PAVO Server and GUI]], Up: [[#Top|Top]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +\\  ---- 
 + 
 +</code> 
 + 
 +Next: [[#on-sky_alignment|On-sky Alignment]], Previous: [[#description_of_pavo_server_and_gui|Description of PAVO Server and GUI]], Up: [[#top|Top]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ===== 6 Starting PAVO Software ===== ===== 6 Starting PAVO Software =====
 +
 This section describes the PAVO-specific servers and guis that need to be open at the beginning of the night to observe with PAVO. This list does not include the general CHARA servers that need to be opened by the array operator. This section describes the PAVO-specific servers and guis that need to be open at the beginning of the night to observe with PAVO. This list does not include the general CHARA servers that need to be opened by the array operator.
  
   * Sync the time on the PAVO computer. Open a terminal window and type "rsh pavo" to log into the pavo computer. Then type "psync" to sync the time on pavo.   * Sync the time on the PAVO computer. Open a terminal window and type "rsh pavo" to log into the pavo computer. Then type "psync" to sync the time on pavo.
-  * Run PAVO using primary OPLE and primary Cosmic Debris. Otherwise, there might be problems with the PAVO communications - see [[#Using_PAVO_with_Secondary_OPLE_and_Secondary_Cosmic_Debris|Using PAVO with Secondary OPLE and Secondary Cosmic Debris]]. +  * Run PAVO using primary OPLE and primary Cosmic Debris. Otherwise, there might be problems with the PAVO communications - see [[#using_pavo_with_secondary_ople_and_secondary_cosmic_debris|Using PAVO with Secondary OPLE and Secondary Cosmic Debris]]. 
-  * Open PAVO server from pull-down menu (Servers -> PAVO). If this doesn’t work, then try "ssh -X pavo" and type "run_pavo"Note that for now (Oct 2008) it is OK to do this from ROCS/AROCalthough there have been times where there seems to be fewer communication issues if the server is run from the mountain.+  * Open PAVO server from pull-down menu (Servers → PAVO). If this doesn’t work, then try "ssh -X pavo" and type "run_pavo"If observing remotely using the Atlanta VNCconnect with the shortcut "pavo" before running "run_pavo".
   * If the server is being run from the mountain during a remote observing run, then the remote observer should open a terminal window and type "speak pavo" to communicate directly with the PAVO server. All commands that are usually entered into the PAVO server can be entered into the speak pavo session. Use CTRL-C to exit out of the speak session, do NOT type exit (that will close down the server).   * If the server is being run from the mountain during a remote observing run, then the remote observer should open a terminal window and type "speak pavo" to communicate directly with the PAVO server. All commands that are usually entered into the PAVO server can be entered into the speak pavo session. Use CTRL-C to exit out of the speak session, do NOT type exit (that will close down the server).
-  * Open PAVO GUI from pull-down menu (GTK -> PAVO) +  * Open PAVO GUI from pull-down menu (GTK → PAVO) 
-    * - For remote observers, clicking the [STATUS] button will bring up the status window that is usually displayed on the top part of the PAVO server.+      * - For remote observers, clicking the [STATUS] button will bring up the status window that is usually displayed on the top part of the PAVO server.
   * On Cosmic Debris, click the box to select PAVO as the beam combiner.   * On Cosmic Debris, click the box to select PAVO as the beam combiner.
   * If the server is re-started:   * If the server is re-started:
-    * - Click [REOPEN] on Cosmic Debris and PAVO GUI to re-initialize communication +      * - Click [REOPEN] on Cosmic Debris and PAVO GUI to re-initialize communication 
-    * - Might need to close and then reopen PAVO displays+      * - Might need to close and then reopen PAVO displays
   * Open LDC controllers from pull-down menu (longitudinal dispersion compensator)   * Open LDC controllers from pull-down menu (longitudinal dispersion compensator)
-    * - ESP Controllers -> LDC S1/S2/W1 +      * - ESP Controllers → LDC S1/S2/W1 
-    * - ESP Controllers -> LDC W2/E2/E1+      * - ESP Controllers → LDC W2/E2/E1
   * Home the LDC units   * Home the LDC units
-    * - Turn on LDC power (button will turn from red to green) +      * - Turn on LDC power (button will turn from red to green) 
-    * - Make sure vel and acc are nonzero (or else the units won’t home) and click the HOME button. Confirm that the position is 0. If the position doesn’t go all the way to 0, then move the glass to about 4 mm and home again. +      * - Make sure vel and acc are nonzero (or else the units won’t home) and click the HOME button. Confirm that the position is 0. If the position doesn’t go all the way to 0, then move the glass to about 4 mm and home again. 
-    * - If you need to home the LDC glass during the night, turn off ASTROMOD using the ople gui, home the glass, then turn back on ASTROMOD.+      * - If you need to home the LDC glass during the night, turn off ASTROMOD using the ople gui, home the glass, then turn back on ASTROMOD.
   * Wait to turn on LDC power until after the reference cart has been set for the first target. This will avoid sending LDCs to a bad position.   * Wait to turn on LDC power until after the reference cart has been set for the first target. This will avoid sending LDCs to a bad position.
   * Check PAVO server to see if the connection with OPLE is open or closed. (As of July 2009, the PAVO connection with OPLE stays open.)   * Check PAVO server to see if the connection with OPLE is open or closed. (As of July 2009, the PAVO connection with OPLE stays open.)
  
 ---- ----
-Next: [[#Observing_with_PAVO|Observing with PAVO]], Previous: [[#Starting_PAVO_Software|Starting PAVO Software]], Up: [[#Top|Top]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#observing_with_pavo|Observing with PAVO]], Previous: [[#starting_pavo_software|Starting PAVO Software]], Up: [[#top|Top]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ===== 7 On-sky Alignment ===== ===== 7 On-sky Alignment =====
 +
 On-sky alignment of the image and pupil planes. This should be done when switching to a new target/calibrator set in a different part of the sky. You need to re-align after a large telescope slew or more than about 1 hour on target. On-sky alignment of the image and pupil planes. This should be done when switching to a new target/calibrator set in a different part of the sky. You need to re-align after a large telescope slew or more than about 1 hour on target.
  
-| • [[#Setting_Detector_Gain|Setting Detector Gain]] : |     | +|• [[#setting_detector_gain|Setting Detector Gain]] :|     | 
-| • [[#Take_Backgrounds|Take Backgrounds]]: |     | +|• [[#take_backgrounds|Take Backgrounds]]:    | 
-| • [[#Align_Image|Align Image]]: |     | +|• [[#align_image|Align Image]]:    | 
-| • [[#Align_Pupil|Align Pupil]]: |     | +|• [[#align_pupil|Align Pupil]]:    | 
-| • [[#Save_Alignment_Positions|Save Alignment Positions]]: |     |+|• [[#save_alignment_positions|Save Alignment Positions]]:    |
  
 ---- ----
-Next: [[#Take_Backgrounds|Take Backgrounds]], Previous: [[#On-sky_Alignment|On-sky Alignment]], Up: [[#On-sky_Alignment|On-sky Alignment]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#take_backgrounds|Take Backgrounds]], Previous: [[#on-sky_alignment|On-sky Alignment]], Up: [[#on-sky_alignment|On-sky Alignment]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 7.1 Setting Detector Gain ==== ==== 7.1 Setting Detector Gain ====
 +
 Set the detector gain using the PAVO gui. Confirm that the gain value is correct on the PAVO server. Set the detector gain using the PAVO gui. Confirm that the gain value is correct on the PAVO server.
  
   * New gain setting should be 170 for almost all targets. Listed below are the OLD and NEW gain settings:   * New gain setting should be 170 for almost all targets. Listed below are the OLD and NEW gain settings:
-    * - gain 170 - new setting for almost all targets; old setting for mag 5.5 and fainter. +      * - gain 170 - new setting for almost all targets; old setting for mag 5.5 and fainter. 
-    * - gain 150 - old setting for 3rd magnitude or fainter (use gain 170 now). +      * - gain 150 - old setting for 3rd magnitude or fainter (use gain 170 now). 
-    * - gain 140 - old setting for brighter target (up to about 1.5). +      * - gain 140 - old setting for brighter target (up to about 1.5). 
-    * - gain 100 - old setting for very bright target.+      * - gain 100 - old setting for very bright target.
   * If changing the gain, you must take new backgrounds. Using a gain mode that is too high makes the camera age (it costs $30,000) and the PAVO server will give a “flux dangerously high” if it calculates that you’re in that regime. One good reason to go to a higher gain mode is that the Flux number is more reliable and doesn’t go negative.   * If changing the gain, you must take new backgrounds. Using a gain mode that is too high makes the camera age (it costs $30,000) and the PAVO server will give a “flux dangerously high” if it calculates that you’re in that regime. One good reason to go to a higher gain mode is that the Flux number is more reliable and doesn’t go negative.
  
 ---- ----
-Next: [[#Align_Image|Align Image]], Previous: [[#Setting_Detector_Gain|Setting Detector Gain]], Up: [[#On-sky_Alignment|On-sky Alignment]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#align_image|Align Image]], Previous: [[#setting_detector_gain|Setting Detector Gain]], Up: [[#on-sky_alignment|On-sky Alignment]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 7.2 Take Backgrounds ==== ==== 7.2 Take Backgrounds ====
  
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   * Click [ACQUIRE] on pavo gui   * Click [ACQUIRE] on pavo gui
   * Take backgrounds   * Take backgrounds
-    * - Close pavo shutters using [B1], [B2], [B3]; (green = open, grey = closed) +      * - Close pavo shutters using [B1], [B2], [B3]; (green = open, grey = closed) 
-    * - Click [BACK] - turns on background +      * - Click [BACK] - turns on background 
-    * - Wait for flux on PAVO Server to go to zero (i.e. less than 10$^5$ and preferably fluctuating above and below zero). +      * - Wait for flux on PAVO Server to go to zero (i.e. less than 10$^5$ and preferably fluctuating above and below zero). 
-    * - Click [BACK] - turns off background +      * - Click [BACK] - turns off background 
-    * - S/N should be low+      * - S/N should be low
   * Open PAVO shutters and take foregrounds if you want V^2 to be correct on PAVO display. (This step is not typically done.)   * Open PAVO shutters and take foregrounds if you want V^2 to be correct on PAVO display. (This step is not typically done.)
   * Click on [VIDEO] to continue with the alignment   * Click on [VIDEO] to continue with the alignment
-  * Note: Only have to re-do backgrounds if changing the gain or re-starting the PAVO server. Just pressing "Go/Stop" is fine and won’t effect the background.\\ +  * Note: Only have to re-do backgrounds if changing the gain or re-starting the PAVO server. Just pressing "Go/Stop" is fine and won’t effect the background. \\ —- 
 + 
 +Next: [[#align_pupil|Align Pupil]], Previous: [[#take_backgrounds|Take Backgrounds]], Up: [[#on-sky_alignment|On-sky Alignment]] [[#table_of_contents|Contents]] [[#index|Index]]
  
----- 
-Next: [[#Align_Pupil|Align Pupil]], Previous: [[#Take_Backgrounds|Take Backgrounds]], Up: [[#On-sky_Alignment|On-sky Alignment]] [[#table_of_Contents|Contents]] [[#Index|Index]] 
 ==== 7.3 Align Image ==== ==== 7.3 Align Image ====
  
   * When doing the alignments, you may want to set display to average 10 frames   * When doing the alignments, you may want to set display to average 10 frames
-    * - In PAVO gui, set Average to 10 +      * - In PAVO gui, set Average to 10 
-    * - Set this to 1 later if you want to see fringes in big window display+      * - Set this to 1 later if you want to see fringes in big window display
   * Turn the PAVO display on.   * Turn the PAVO display on.
   * Click [IMAGE] on PAVO gui   * Click [IMAGE] on PAVO gui
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 ---- ----
-Next: [[#Save_Alignment_Positions|Save Alignment Positions]], Previous: [[#Align_Image|Align Image]], Up: [[#On-sky_Alignment|On-sky Alignment]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#save_alignment_positions|Save Alignment Positions]], Previous: [[#align_image|Align Image]], Up: [[#on-sky_alignment|On-sky Alignment]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 7.4 Align Pupil ==== ==== 7.4 Align Pupil ====
  
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 ---- ----
-Previous: [[#Align_Pupil|Align Pupil]], Up: [[#On-sky_Alignment|On-sky Alignment]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Previous: [[#align_pupil|Align Pupil]], Up: [[#on-sky_alignment|On-sky Alignment]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 7.5 Save Alignment Positions ==== ==== 7.5 Save Alignment Positions ====
  
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 ---- ----
-Next: [[#Shutting_down_PAVO|Shutting down PAVO]], Previous: [[#On-sky_Alignment|On-sky Alignment]], Up: [[#Top|Top]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#shutting_down_pavo|Shutting down PAVO]], Previous: [[#on-sky_alignment|On-sky Alignment]], Up: [[#top|Top]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ===== 8 Observing with PAVO ===== ===== 8 Observing with PAVO =====
  
-| • [[#Important_Notes|Important Notes]]: |     | +|• [[#important_notes|Important Notes]]:    | 
-| • [[#Target_Acquistion|Target Acquistion]]: |     | +|• [[#target_acquistion|Target Acquistion]]:    | 
-| • [[#Searching_for_Fringes|Searching for Fringes]]: |     | +|• [[#searching_for_fringes|Searching for Fringes]]:    | 
-| • [[#Detailed_Observing_Notes|Detailed Observing Notes]]: |     |+|• [[#detailed_observing_notes|Detailed Observing Notes]]:    |
  
 ---- ----
-Next: [[#Target_Acquistion|Target Acquistion]], Previous: [[#Observing_with_PAVO|Observing with PAVO]], Up: [[#Observing_with_PAVO|Observing with PAVO]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#target_acquistion|Target Acquistion]], Previous: [[#observing_with_pavo|Observing with PAVO]], Up: [[#observing_with_pavo|Observing with PAVO]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 8.1 Important Notes ==== ==== 8.1 Important Notes ====
  
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 ---- ----
-Next: [[#Searching_for_Fringes|Searching for Fringes]], Previous: [[#Important_Notes|Important Notes]], Up: [[#Observing_with_PAVO|Observing with PAVO]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#searching_for_fringes|Searching for Fringes]], Previous: [[#important_notes|Important Notes]], Up: [[#observing_with_pavo|Observing with PAVO]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 8.2 Target Acquistion ==== ==== 8.2 Target Acquistion ====
  
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   * Slew to target   * Slew to target
   * Check reference cart position on OPLE server   * Check reference cart position on OPLE server
-    * - On the OPLE Control tab, make sure that MAN is depressed grey for the active and non-fixed carts. PAVO does this for you in principle, but good to check. (OL must also be clicked for all three active carts.)+      * - On the OPLE Control tab, make sure that MAN is depressed grey for the active and non-fixed carts. PAVO does this for you in principle, but good to check. (OL must also be clicked for all three active carts.)
   * Check reference glass position on LDC. If you are tracking on the reference cart position (i.e., not using AUTO for the reference cart in Cosmic Debris), then the glass should be set automatically.   * Check reference glass position on LDC. If you are tracking on the reference cart position (i.e., not using AUTO for the reference cart in Cosmic Debris), then the glass should be set automatically.
-    * - The position of the reference glass in mm should be roughly the same as the reference cart position in meters (+/- about 5 mm). +      * - The position of the reference glass in mm should be roughly the same as the reference cart position in meters (+/- about 5 mm). 
-    * - Tell OPLE to send offsets to LDCs by typing the following commands into the OPLE server: +      * - Tell OPLE to send offsets to LDCs by typing the following commands into the OPLE server: 
-      * > > useldc on +        * > > useldc on 
-      * > > autoldc on +        * > > autoldc on 
-    * - The LDC glass on all beams should be between -10 mm to 50 mm. If the ople server reports "<-10mm" or ">40mm", then the reference cart/glass will need to be adjusted to bring the LDCs into a good range. +      * - The LDC glass on all beams should be between -10 mm to 50 mm. If the ople server reports "<-10mm" or ">40mm", then the reference cart/glass will need to be adjusted to bring the LDCs into a good range. 
-    * - If tracking on the reference cart, then click [Ref] on Cosmic Debris to set position of reference cart and automatically set position of reference glass. +      * - If tracking on the reference cart, then click [Ref] on Cosmic Debris to set position of reference cart and automatically set position of reference glass. 
-    * - If using AUTO for reference cart on Cosmic Debris, then set the LDC position for the reference glass by hand using the LDC gui. +      * - If using AUTO for reference cart on Cosmic Debris, then set the LDC position for the reference glass by hand using the LDC gui. 
-  * Align image/pupil planes on-sky if needed for a new calibration set - see [[#On-sky_Alignment|On-sky Alignment]].+  * Align image/pupil planes on-sky if needed for a new calibration set - see [[#on-sky_alignment|On-sky Alignment]].
  
 ---- ----
-Next: [[#Detailed_Observing_Notes|Detailed Observing Notes]], Previous: [[#Target_Acquistion|Target Acquistion]], Up: [[#Observing_with_PAVO|Observing with PAVO]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#detailed_observing_notes|Detailed Observing Notes]], Previous: [[#target_acquistion|Target Acquistion]], Up: [[#observing_with_pavo|Observing with PAVO]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 8.3 Searching for Fringes ==== ==== 8.3 Searching for Fringes ====
  
   * Make sure the mask and lenslet are in before searching for fringes. The [MASK OUT] button will be green when the mask is out and grey when the mask is in.   * Make sure the mask and lenslet are in before searching for fringes. The [MASK OUT] button will be green when the mask is out and grey when the mask is in.
   * Click the [PLOTS] button to bring up three fringe display plots (one for each baseline)   * Click the [PLOTS] button to bring up three fringe display plots (one for each baseline)
-    * - Group delay is plotted along x-axis (+/- 19 um wide) and time along the y-axis +      * - Group delay is plotted along x-axis (+/- 19 um wide) and time along the y-axis 
-    * - Fringes show up as a bright "waterfall" in fringe display plots (Fig. 5) +      * - Fringes show up as a bright "waterfall" in fringe display plots (Fig. 5) 
-    * - Fringes will drift in/out from the sides as fringes are found/lost+      * - Fringes will drift in/out from the sides as fringes are found/lost
   * Click [SEARCH] button to start the search, in a telescoping zig-zag pattern.   * Click [SEARCH] button to start the search, in a telescoping zig-zag pattern.
-    * - Telescoping search starts automatically after star is acquired with Cosmic Debris+      * - Telescoping search starts automatically after star is acquired with Cosmic Debris
   * Set linear search parameters   * Set linear search parameters
-    * - Click [LINEAR] button to enter cart offset and velocity for linear fringe search +      * - Click [LINEAR] button to enter cart offset and velocity for linear fringe search 
-    * - The units displayed in the LINEAR search box are um and um/s +      * - The units displayed in the LINEAR search box are um and um/s 
-    * - Typical searches between +/- 10,000 um at 15 um/s. +      * - Typical searches between +/- 10,000 um at 15 um/s. 
-    * - For a slow search, set velocity to 10 um/s or slower +      * - For a slow search, set velocity to 10 um/s or slower 
-    * - For a fast search, set velocity to 20-30 um/s +      * - For a fast search, set velocity to 20-30 um/s 
-    * - It is helpful to set cart velocity to different value from autosearch velocity (default 5 um/s) to distinguish whether it’s in linear or telescoping search mode+      * - It is helpful to set cart velocity to different value from autosearch velocity (default 5 um/s) to distinguish whether it’s in linear or telescoping search mode
   * Adjust S/N levels that turn auto-fringe tracking on and off (AON/AOFF) using the "snon" and "snoff" commands   * Adjust S/N levels that turn auto-fringe tracking on and off (AON/AOFF) using the "snon" and "snoff" commands
-    * - Adjust these values by looking at the S/N values on the PAVO server. Look at the range of S/N values for the background (no fringes). +      * - Adjust these values by looking at the S/N values on the PAVO server. Look at the range of S/N values for the background (no fringes). 
-    * - Set “snon” slightly above the highest S/N value in the background. This determines when fringe tracking turns on. Setting SNON too high won’t stop the fringe search when fringes are found (the fringes will pass right by). Setting SNON too low will cause the search to stop frequently and to track on noise. +      * - Set “snon” slightly above the highest S/N value in the background. This determines when fringe tracking turns on. Setting SNON too high won’t stop the fringe search when fringes are found (the fringes will pass right by). Setting SNON too low will cause the search to stop frequently and to track on noise. 
-    * - Set “snoff” slightly above the average S/N in the background. This determines when fringe tracking turns off. If SNOFF is set too low, then the fringe tracker won’t turn off after fringes are lost and you will record noise as fringe data. It may also cause the fringes to appear to be yanked away after they are found because it may track on noise rather than the fringe (this appears as diagonal streak in fringe display window). +      * - Set “snoff” slightly above the average S/N in the background. This determines when fringe tracking turns off. If SNOFF is set too low, then the fringe tracker won’t turn off after fringes are lost and you will record noise as fringe data. It may also cause the fringes to appear to be yanked away after they are found because it may track on noise rather than the fringe (this appears as diagonal streak in fringe display window). 
-    * - Default values are "snon 2.0" and "snoff 1.5", but you’ll want to set these according to the actual S/N values observed on the server+      * - Default values are "snon 2.0" and "snoff 1.5", but you’ll want to set these according to the actual S/N values observed on the server
   * After fringes are found on a bright fringe finder or calibrator, you’ll want to servo the glass if the dispersion is high (> 2)   * After fringes are found on a bright fringe finder or calibrator, you’ll want to servo the glass if the dispersion is high (> 2)
-    * - With fringes locked, type “tg” in the PAVO server to toggle the glass. The fringes will disappear and the server will indicate that the glass is being servoed. +      * - With fringes locked, type “tg” in the PAVO server to toggle the glass. The fringes will disappear and the server will indicate that the glass is being servoed. 
-    * - When the fringes re-appear, type “tg” to stop toggling the glass. The dispersion should now be low (< 2) when locked on fringes. +      * - When the fringes re-appear, type “tg” to stop toggling the glass. The dispersion should now be low (< 2) when locked on fringes. 
-    * - Keep the “tg” parameters the same for the entire calibration set. +      * - Keep the “tg” parameters the same for the entire calibration set. 
-  * Check pavo server to make sure the servo is on for beams that are in use\\  e.g. if beam 1 is the reference cart, turn on beams 2 & 3 (type into server): +  * Check pavo server to make sure the servo is on for beams that are in use \\ e.g. if beam 1 is the reference cart, turn on beams 2 & 3 (type into server): 
-    * > > servo 2 aoff +      * > > servo 2 aoff 
-    * > > servo 3 aoff +      * > > servo 3 aoff 
-    * - If a cart is not being used, set it to “OFF”. For example, if using only 2T on Beams 2&3, then you will need to type “servo 1 off” to turn off cart 1. +      * - If a cart is not being used, set it to “OFF”. For example, if using only 2T on Beams 2&3, then you will need to type “servo 1 off” to turn off cart 1. 
-    * - Reference cart should be listed as "FIX" in pavo server +      * - Reference cart should be listed as "FIX" in pavo server 
-    * - AOFF - automatic search but not locked on fringes +      * - AOFF - automatic search but not locked on fringes 
-    * - AON - locked on fringe +      * - AON - locked on fringe 
-    * - AMOV - moving cart fringes +      * - AMOV - moving cart fringes 
-    * - FIX - cart active but fixed as reference (type FIXED when using servo command) +      * - FIX - cart active but fixed as reference (type FIXED when using servo command) 
-    * - OFF - cart off, not searching+      * - OFF - cart off, not searching
   * Set integration times for each baseline:   * Set integration times for each baseline:
-    * > > itime 120 120 120 +      * > > itime 120 120 120 
-    * - The three numbers are itime in seconds for baselines 1, 2, and 3 +      * - The three numbers are itime in seconds for baselines 1, 2, and 3 
-    * - In the above example, pavo will wait until it acquires 120 seconds of locked fringes on all three baselines before automatically doing a shutter sequence +      * - In the above example, pavo will wait until it acquires 120 seconds of locked fringes on all three baselines before automatically doing a shutter sequence 
-    * - If you are not fringing on a particular baseline or if you don’t want to wait too long to acquire enough signal on a particular baseline, set those baselines to 0. e.g. "itime 0 180 0" will acquire 180 secs on baseline 1, regardless of how long fringes were locked on baselines 1 and 3 +      * - If you are not fringing on a particular baseline or if you don’t want to wait too long to acquire enough signal on a particular baseline, set those baselines to 0. e.g. "itime 0 180 0" will acquire 180 secs on baseline 1, regardless of how long fringes were locked on baselines 1 and 3 
-    * - Clicking "Star Acquired" on Cosmic Debris will clear the total time locked count +      * - Clicking "Star Acquired" on Cosmic Debris will clear the total time locked count 
-    * - If you want to end an integration, click [SHUTTER] to go immediately to shutter sequence or [GO/STOP] to end with no shutters+      * - If you want to end an integration, click [SHUTTER] to go immediately to shutter sequence or [GO/STOP] to end with no shutters
   * Set autosearch parameters that define how to get fringes back after being lost   * Set autosearch parameters that define how to get fringes back after being lost
-    * > > setas 2 -5 5 +      * > > setas 2 -5 5 
-    * - Set autoseach: beam 2, move -5 um away, search at 5 um/s +      * - Set autoseach: beam 2, move -5 um away, search at 5 um/s 
-    * - Autosearch will do a back-and-forth search, increasing the width of the search on each pass +      * - Autosearch will do a back-and-forth search, increasing the width of the search on each pass 
-    * - Default values are typically ok (unless seeing is poor or S/N low) +      * - Default values are typically ok (unless seeing is poor or S/N low) 
-    * - To restart autosearch, type “sas” into pavo server+      * - To restart autosearch, type “sas” into pavo server
   * [DELAY] gives a plot of the delay velocities of each cart   * [DELAY] gives a plot of the delay velocities of each cart
   * [SAVE] button turns on/off file saving.   * [SAVE] button turns on/off file saving.
-    * - If [AS] is turned on, then saving turns on automatically when fringes are found continuously for 1 sec. +      * - If [AS] is turned on, then saving turns on automatically when fringes are found continuously for 1 sec. 
-    * - To save disk space, please turn the SAVE button off after data finishes and before slewing to a new target. This will avoid saving files when the camera starts.+      * - To save disk space, please turn the SAVE button off after data finishes and before slewing to a new target. This will avoid saving files when the camera starts.
   * [AS] - if autosave button is turned on (green) then file saving will turn on automatically when fringes are found continuously for 1 sec. Turning AS off while searching for fringes at the start of the night will avoid saving files in case AON is triggered before fringe offsets are found. Turn AS back on after finding fringes.   * [AS] - if autosave button is turned on (green) then file saving will turn on automatically when fringes are found continuously for 1 sec. Turning AS off while searching for fringes at the start of the night will avoid saving files in case AON is triggered before fringe offsets are found. Turn AS back on after finding fringes.
   * [SHUTTER] button will begin shutter sequence (if ending integration early)   * [SHUTTER] button will begin shutter sequence (if ending integration early)
  
 ---- ----
-Previous: [[#Searching_for_Fringes|Searching for Fringes]], Up: [[#Observing_with_PAVO|Observing with PAVO]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Previous: [[#searching_for_fringes|Searching for Fringes]], Up: [[#observing_with_pavo|Observing with PAVO]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 8.4 Detailed Observing Notes ==== ==== 8.4 Detailed Observing Notes ====
  
   * Two-Telescope Mode   * Two-Telescope Mode
-    * - For 2-telescope mode, using beams 2 and 3 (figure it out for yourself if you’re using other beams), type "servo 1 off" to turn off the servo for beam 1, and type "itime 0 120 0" to make sure PAVO is not waiting for a long integration on baselines 1 and 3.+      * - For 2-telescope mode, using beams 2 and 3 (figure it out for yourself if you’re using other beams), type "servo 1 off" to turn off the servo for beam 1, and type "itime 0 120 0" to make sure PAVO is not waiting for a long integration on baselines 1 and 3.
   * Moving Cart Fringes   * Moving Cart Fringes
-    * - If you get moving cart fringes first, you’ll see "AMOV" on the pavo server. Cosmic Debris will print out the position. If you are doing a linear search then it should continue while locking the two moving carts against each other, finding the other fringes automatically. If it’s in back-and-forth search mode then AMOV might get kind of screwy. If the AMOV fringes are lost, it’s always a good idea to check if the carts are still heading in the right direction.+      * - If you get moving cart fringes first, you’ll see "AMOV" on the pavo server. Cosmic Debris will print out the position. If you are doing a linear search then it should continue while locking the two moving carts against each other, finding the other fringes automatically. If it’s in back-and-forth search mode then AMOV might get kind of screwy. If the AMOV fringes are lost, it’s always a good idea to check if the carts are still heading in the right direction.
   * Changing the Integration Time - Faint Targets and Good Seeing   * Changing the Integration Time - Faint Targets and Good Seeing
-    * - On faint targets, S/N will improve by increasing tint to 20 msec (default is 9.7 msec). +      * - On faint targets, S/N will improve by increasing tint to 20 msec (default is 9.7 msec). 
-    * - To change integration time, type “tint X” in PAVO server (where X is in msec) +      * - To change integration time, type “tint X” in PAVO server (where X is in msec) 
-    * - Re-do backgrounds after changing tint. +      * - Re-do backgrounds after changing tint. 
-    * - It is ok to change to longer tint if the seeing is good and the Rat column on the PAVO server is above 0.5 consistently on a star with good fringes (e.g. a bright calibrator). It is better to leave at the default of 8 msec in bad seeing. +      * - It is ok to change to longer tint if the seeing is good and the Rat column on the PAVO server is above 0.5 consistently on a star with good fringes (e.g. a bright calibrator). It is better to leave at the default of 8 msec in bad seeing. 
-    * - Calibrator and science targets must be observed using the same tint.+      * - Calibrator and science targets must be observed using the same tint.
   * Aligning on Bright Targets   * Aligning on Bright Targets
-    * - For bright targets (V > 2 mag), align on a fainter calibrator or nearby star so that you don’t saturate the detector during alignment.+      * - For bright targets (V > 2 mag), align on a fainter calibrator or nearby star so that you don’t saturate the detector during alignment.
   * High Dispersion   * High Dispersion
-    * - If the dispersion of the fringes is high or if you can’t find fringes, you may want to adjust the glass offsets used by the ople server (this is an offset sent to the “moving” LDC glass, that adjusts it from the nominal position on the LDC display) +      * - If the dispersion of the fringes is high or if you can’t find fringes, you may want to adjust the glass offsets used by the ople server (this is an offset sent to the “moving” LDC glass, that adjusts it from the nominal position on the LDC display) 
-    * - High dispersion will produce smeared, asymmetric fringes +      * - High dispersion will produce smeared, asymmetric fringes 
-    * - When tracking on fringes, the DISP column on the PAVO server should be < 2.0. +      * - When tracking on fringes, the DISP column on the PAVO server should be < 2.0. 
-    * - If the dispersion is high, type “tg” into the PAVO server while on a fringe finder or calibrator to correct for high dispersion. The fringes will disappear at first. When the fringes re-appear, type “tg” again to stop toggling the glass. After doing this, the dispersion should be low when locked on fringes. See [[#Troubleshooting|Troubleshooting]] for more details on how to correct this. +      * - If the dispersion is high, type “tg” into the PAVO server while on a fringe finder or calibrator to correct for high dispersion. The fringes will disappear at first. When the fringes re-appear, type “tg” again to stop toggling the glass. After doing this, the dispersion should be low when locked on fringes. See [[#troubleshooting|Troubleshooting]] for more details on how to correct this. 
-    * - If the dispersion number is near zero (i.e. you’ve found fringes on a bright star and done "tg"), you get lower noise by typing "dispersion" into the PAVO server to zero the dispersion. Otherwise the software searches over 1 dimension of group delay and 1 dimension of dispersion to search for the biggest peak. (Helps by about 0.3 mags only.)+      * - If the dispersion number is near zero (i.e. you’ve found fringes on a bright star and done "tg"), you get lower noise by typing "dispersion" into the PAVO server to zero the dispersion. Otherwise the software searches over 1 dimension of group delay and 1 dimension of dispersion to search for the biggest peak. (Helps by about 0.3 mags only.)
   * Tips to Help Track Fringes Better (adjust these parameters depending on data quality and seeing conditions). Note: to see default values before changing, type the command with no value into PAVO server.   * Tips to Help Track Fringes Better (adjust these parameters depending on data quality and seeing conditions). Note: to see default values before changing, type the command with no value into PAVO server.
-    * - Change tint in pavo server (see above; default 9.7 msec) +      * - Change tint in pavo server (see above; default 9.7 msec) 
-      * + If you’re having problems with R=6.6 and V^2C is more than 0.2, then you should go to tint 20. Calibration will be a little worse but better chances of trackable fringes on faint stars. +        * + If you’re having problems with R=6.6 and V^2C is more than 0.2, then you should go to tint 20. Calibration will be a little worse but better chances of trackable fringes on faint stars. 
-      * + Calibration sequence must be taken all with the same tint +        * + Calibration sequence must be taken all with the same tint 
-      * + Re-do backgrounds after changing tint +        * + Re-do backgrounds after changing tint 
-    * - Adjust dtime. For good seeing (stable fringes) use dtime up to about 2. For bad seeing (fringes jumping left and right) decrease dtime to about 0.4. +      * - Adjust dtime. For good seeing (stable fringes) use dtime up to about 2. For bad seeing (fringes jumping left and right) decrease dtime to about 0.4. 
-    * - Adjust snon and snoff +      * - Adjust snon and snoff 
-    * - Change autosearch parameters to smaller offset and velocity values: +      * - Change autosearch parameters to smaller offset and velocity values: 
-      * + setas beam# -2 2+        * + setas beam# -2 2
   * Adusting the Incoherent Integration Time   * Adusting the Incoherent Integration Time
-    * - Adjust “dtime”. This is shorthand for "gddtime" i.e. "Damping Time" and combines both "gddtime" and "sgain". If you want to have a longer incoherent (software) integration time, increase dtime. e.g. dtime 0.5 is appropriate for fast seeing, and dtime 2 is appropriate for fainter targets in good seeing. It doesn’t change the recorded data, only the analyzed data used for fringe tracking. (dtime = 1.0 is the default?)+      * - Adjust “dtime”. This is shorthand for "gddtime" i.e. "Damping Time" and combines both "gddtime" and "sgain". If you want to have a longer incoherent (software) integration time, increase dtime. e.g. dtime 0.5 is appropriate for fast seeing, and dtime 2 is appropriate for fainter targets in good seeing. It doesn’t change the recorded data, only the analyzed data used for fringe tracking. (dtime = 1.0 is the default?)
   * Photon Counting Mode (pc)   * Photon Counting Mode (pc)
-    * - For photon counting mode to work, stars have to be at least 6th mag or fainter, and it only makes a noticeable difference at 7th mag. To use pc, first change the gain to 173 (e.g. the gain box on the GUI), then take a new background, then type "pc", then take _another_ background, then you’re good to go.+      * - For photon counting mode to work, stars have to be at least 6th mag or fainter, and it only makes a noticeable difference at 7th mag. To use pc, first change the gain to 173 (e.g. the gain box on the GUI), then take a new background, then type "pc", then take _another_ background, then you’re good to go.
  
 ---- ----
-Next: [[#Recommendations_for_Setting_Beam_Order|Recommendations for Setting Beam Order]], Previous: [[#Observing"_with_PAVO|Observing with PAVO]], Up: [[#Top|Top]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#recommendations_for_setting_beam_order|Recommendations for Setting Beam Order]], Previous: [[#observing_ckgedit_quot_with_pavo|Observing with PAVO]], Up: [[#top|Top]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ===== 9 Shutting down PAVO ===== ===== 9 Shutting down PAVO =====
  
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   * If you will be using PAVO the next day, you can leave the camera cool and just “exit” out of the server.   * If you will be using PAVO the next day, you can leave the camera cool and just “exit” out of the server.
   * If you are finished with the PAVO run, then warm up the camera before exiting by typing the following command into the PAVO server:   * If you are finished with the PAVO run, then warm up the camera before exiting by typing the following command into the PAVO server:
-    * > > coolon 0 +      * > > coolon 0 
-    * - Wait for camera to warm up to 0 degrees and then exit out of server. This is very important when shutting down for a long time, because it will ensure that the PAVO fan remains off.+      * - Wait for camera to warm up to 0 degrees and then exit out of server. This is very important when shutting down for a long time, because it will ensure that the PAVO fan remains off.
   * Turn off power for LDC units.   * Turn off power for LDC units.
-\\  + 
-Compressing the data at the end of the night+ \\ Compressing the data at the end of the night
  
   - ssh to pavo and “cd /raid/090430” or whatever your UT date is.   - ssh to pavo and “cd /raid/090430” or whatever your UT date is.
-  - Type “compress *fits”. Or if that fails (file list too long)... “compress pavo0*fits &” then “compress pavo1*fits &” etc.+  - Type “compress *fits”. Or if that fails (file list too long)… “compress pavo0*fits &” then “compress pavo1*fits &” etc.
   - Do a “df -h” and check there is at least 200GB left on /raid.   - Do a “df -h” and check there is at least 200GB left on /raid.
  
 ---- ----
-Next: [[#Fringe_Finding_Sources|Fringe Finding Sources]], Previous: [[#Shutting_down_PAVO|Shutting down PAVO]], Up: [[#Top|Top]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#fringe_finding_sources|Fringe Finding Sources]], Previous: [[#shutting_down_pavo|Shutting down PAVO]], Up: [[#top|Top]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ===== 10 Recommendations for Setting Beam Order ===== ===== 10 Recommendations for Setting Beam Order =====
-  +
 These were Mike’s recommendations for setting the W2-S2-W1 beam order (Nov 2008): These were Mike’s recommendations for setting the W2-S2-W1 beam order (Nov 2008):
  
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 ---- ----
-Next: [[#Troubleshooting|Troubleshooting]], Previous: [[#Recommendations_for_Setting_Beam_Order|Recommendations for Setting Beam Order]], Up: [[#Top|Top]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#troubleshooting|Troubleshooting]], Previous: [[#recommendations_for_setting_beam_order|Recommendations for Setting Beam Order]], Up: [[#top|Top]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ===== 11 Fringe Finding Sources ===== ===== 11 Fringe Finding Sources =====
  
   * It is often helpful to use a bright, unresolved star to find fringes for the first time. If your targets and calibrators are on the fainter side, it’s a good idea to look for additional fringe finding targets.   * It is often helpful to use a bright, unresolved star to find fringes for the first time. If your targets and calibrators are on the fainter side, it’s a good idea to look for additional fringe finding targets.
   * There is an idl routine available to aid in selecting bright fringe finding stars   * There is an idl routine available to aid in selecting bright fringe finding stars
-    * - Log on to pavo using “ssh -X pavo” +      * - Log on to pavo using “ssh -X pavo” 
-    * - Type “idl” at the prompt +      * - Type “idl” at the prompt 
-    * - Run the star finding routine using one of the following commands: +      * - Run the star finding routine using one of the following commands: 
-      * > > pavo_ptsrc, ’HD 6457’, 10 +        * > > pavo_ptsrc, ’HD 6457’, 10 
-      * > > pavo_ptsrc, [10,30,00,+45,00,00], 10 +        * > > pavo_ptsrc, [10,30,00,+45,00,00], 10 
-    * - The array in the second call is the RA and DEC in [hh,mm,ss,dd,mm,ss] of the location where you want to find a bright nearby star and the last number is the search radius in degrees. +      * - The array in the second call is the RA and DEC in [hh,mm,ss,dd,mm,ss] of the location where you want to find a bright nearby star and the last number is the search radius in degrees. 
-    * - Binaries are flagged in the last column of the output table. +      * - Binaries are flagged in the last column of the output table. 
-    * - It is useful to select fringe finders with a correlated magnitude of 5-6 mag on a 300 meter baseline. The correlated magnitude accounts for the brightness as well as how resolved the target is.+      * - It is useful to select fringe finders with a correlated magnitude of 5-6 mag on a 300 meter baseline. The correlated magnitude accounts for the brightness as well as how resolved the target is.
  
 ---- ----
-Next: [[#Random_and_Important_Notes|Random and Important Notes]], Previous: [[#Fringe_Finding_Sources|Fringe Finding Sources]], Up: [[#Top|Top]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#random_and_important_notes|Random and Important Notes]], Previous: [[#fringe_finding_sources|Fringe Finding Sources]], Up: [[#top|Top]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ===== 12 Troubleshooting ===== ===== 12 Troubleshooting =====
  
-| • [[#Can_t_Find_Fringes|Can't Find Fringes]]: |     | +|• [[#can_t_find_fringes|Can't Find Fringes]]:    | 
-| • [[#Can_t_See_Laser_in_Acquistion|Can't See Laser in Acquistion]]: |     | +|• [[#can_t_see_laser_in_acquistion|Can't See Laser in Acquistion]]:    | 
-| • [[#Can_t_See_Starlight_on_Dectector|Can't See Starlight on Dectector]]: |     | +|• [[#can_t_see_starlight_on_dectector|Can't See Starlight on Dectector]]:    | 
-| • [[#Can_t_See_Laser_in_PAVO_Camera|Can't See Laser in PAVO Camera]]: |     | +|• [[#can_t_see_laser_in_pavo_camera|Can't See Laser in PAVO Camera]]:    | 
-| • [[#Dispersion_is_High|Dispersion is High]]: |     | +|• [[#dispersion_is_high|Dispersion is High]]:    | 
-| • [[#Large_Jump_in_Image_Position|Large Jump in Image Position]]: |     | +|• [[#large_jump_in_image_position|Large Jump in Image Position]]:    | 
-| • [[#LDCs_won_t_Home|LDCs won't Home]]: |     | +|• [[#ldcs_won_t_home|LDCs won't Home]]:    | 
-| • [[#Using_PAVO_with_Secondary_OPLE_and_Secondary_Cosmic_Debris|Using PAVO with Secondary OPLE and Secondary Cosmic Debris]]: |     | +|• [[#using_pavo_with_secondary_ople_and_secondary_cosmic_debris|Using PAVO with Secondary OPLE and Secondary Cosmic Debris]]:    | 
-| • [[#Homing_the_lenslet_stage_motor_1|Homing the lenslet stage (motor 1)]]: |     | +|• [[#homing_the_lenslet_stage_motor_1|Homing the lenslet stage (motor 1)]]:    | 
-| • [[#If_you_need_to_home_only_one_of_the_PAVO_motors|If you need to home only one of the PAVO motors]]: |     | +|• [[#if_you_need_to_home_only_one_of_the_pavo_motors|If you need to home only one of the PAVO motors]]:    | 
-| • [[#No_light_in_the_pupil_plane|No light in the pupil plane]]: |     | +|• [[#no_light_in_the_pupil_plane|No light in the pupil plane]]:    | 
-| • [[#PAVO_Server_-_Error_communicating_with_IFW|PAVO Server - Error communicating with IFW]]: |     |+|• [[#pavo_server_-_error_communicating_with_ifw|PAVO Server - Error communicating with IFW]]:    |
  
 ---- ----
-Next: [[#Can_t_See_Laser_in_Acquistion|Can't See Laser in Acquistion]], Previous: [[#Troubleshooting|Troubleshooting]], Up: [[#Troubleshooting|Troubleshooting]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#can_t_see_laser_in_acquistion|Can't See Laser in Acquistion]], Previous: [[#troubleshooting|Troubleshooting]], Up: [[#troubleshooting|Troubleshooting]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 12.1 Can’t Find Fringes ==== ==== 12.1 Can’t Find Fringes ====
 +
 This list outlines the simple things that can prevent you from finding fringes: This list outlines the simple things that can prevent you from finding fringes:
  
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   * Check flux: Is light getting through on all beams? Are PAVO shutters open? Check alignment?   * Check flux: Is light getting through on all beams? Are PAVO shutters open? Check alignment?
   * Check flux levels: Is there any light in the lab entering PAVO (this will show up as vertical stripes in the PAVO pupil display when taking backgrounds)? Are the acquisition mirrors out (PAVO pupil will appear cut-off if they are not)?   * Check flux levels: Is there any light in the lab entering PAVO (this will show up as vertical stripes in the PAVO pupil display when taking backgrounds)? Are the acquisition mirrors out (PAVO pupil will appear cut-off if they are not)?
-  * Check “goffset” command on ople server - see [[#Dispersion_is_High|Dispersion is High]].+  * Check “goffset” command on ople server - see [[#dispersion_is_high|Dispersion is High]]. 
 If OPLE is not tracking - go to OPLE Server: If OPLE is not tracking - go to OPLE Server:
  
-  * If mean errors are high (should be 0.00) -> anything bigger than 1 is high +  * If mean errors are high (should be 0.00) → anything bigger than 1 is high 
-  * Click [OFF] - [BACK] - [OFF] - [TRACK]\\  or... [OFF] - [FRONT] - [OFF] - [TRACK]+  * Click [OFF] - [BACK] - [OFF] - [TRACK] \\ or… [OFF] - [FRONT] - [OFF] - [TRACK]
   * This often happens with W1 - keep you’re eyes open in case it gets stuck.   * This often happens with W1 - keep you’re eyes open in case it gets stuck.
 +
 Check LDC glass position (possible reason for not finding fringes): Check LDC glass position (possible reason for not finding fringes):
  
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   * To change the LDC position for the reference cart use Cosmic Debris (if tracking on the reference cart position) or the LDC controls (if using AUTO for reference cart on Cosmic Debris).   * To change the LDC position for the reference cart use Cosmic Debris (if tracking on the reference cart position) or the LDC controls (if using AUTO for reference cart on Cosmic Debris).
   * To home the glass position on an individual beam, type in ople server:   * To home the glass position on an individual beam, type in ople server:
-    * > > autoldc off +      * > > autoldc off 
-    * - Home the glass by using the LDC gui (make sure LDC velocity is nonzero or glass will not home/set properly) +      * - Home the glass by using the LDC gui (make sure LDC velocity is nonzero or glass will not home/set properly) 
-    * > > autoldc on+      * > > autoldc on
   * IMPORTANT HINT: the reference glass position in mm is roughly the same as the reference cart position in m.   * IMPORTANT HINT: the reference glass position in mm is roughly the same as the reference cart position in m.
  
 ---- ----
-Next: [[#Can_t_See_Starlight_on_Dectector|Can't See Starlight on Dectector]], Previous: [[#Can_t_Find_Fringes|Can't Find Fringes]], Up: [[#Troubleshooting|Troubleshooting]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#can_t_see_starlight_on_dectector|Can't See Starlight on Dectector]], Previous: [[#can_t_find_fringes|Can't Find Fringes]], Up: [[#troubleshooting|Troubleshooting]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 12.2 Can’t See Laser in Acquistion ==== ==== 12.2 Can’t See Laser in Acquistion ====
-  +
 Can’t see laser in [ACQ] when aligning TV Tracking on telescope: Can’t see laser in [ACQ] when aligning TV Tracking on telescope:
  
Line 679: Line 778:
  
 ---- ----
-Next: [[#Can_t_See_Laser_in_PAVO_Camera|Can't See Laser in PAVO Camera]], Previous: [[#Can_t_See_Laser_in_Acquistion|Can't See Laser in Acquistion]], Up: [[#Troubleshooting|Troubleshooting]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#can_t_see_laser_in_pavo_camera|Can't See Laser in PAVO Camera]], Previous: [[#can_t_see_laser_in_acquistion|Can't See Laser in Acquistion]], Up: [[#troubleshooting|Troubleshooting]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 12.3 Can’t See Starlight on Dectector ==== ==== 12.3 Can’t See Starlight on Dectector ====
-Check the PAVO server to make sure the gain is set properly. If it is 0, then re-enter the gain setting using the PAVO gui. If light is still not reaching the detector, then go into the lab, put in the corner cubes, and make sure the laser light is reaching the PAVO table.+ 
 +Check the PAVO server to make sure the gain is set properly. If it is 0, then re-enter the gain setting using the PAVO gui. 
 + 
 +The red beacon from the AO board can be seen on the PAVO camera.  Check to see if it is visible.  If it is not, the starlight is likely not visible as well. 
 + 
 +Check if the labao shows starlight when the blue beacon is turned low or off on a bright star, Vmag 3 or brighter.  If it is not visible, the dichroic may be misaligned and not sending starlight to the lab.  Confirm the dichroic position with the green laser, especially if it is the first night of a run. 
 + 
 +If light is still not reaching the detector, then go into the lab, put in the corner cubes, and make sure the laser light is reaching the PAVO table. Look for laser light on the splitters, M1 mirrors above the CLIMB table and L1 lenses facing the PAVO table.  Use a white card to see the laser light as it goes into the PAVO table cover slot.
  
 ---- ----
-Next: [[#Dispersion_is_High|Dispersion is High]], Previous: [[#Can_t_See_Starlight_on_Dectector|Can't See Starlight on Dectector]], Up: [[#Troubleshooting|Troubleshooting]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#dispersion_is_high|Dispersion is High]], Previous: [[#can_t_see_starlight_on_dectector|Can't See Starlight on Dectector]], Up: [[#troubleshooting|Troubleshooting]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 12.4 Can’t See Laser in PAVO Camera ==== ==== 12.4 Can’t See Laser in PAVO Camera ====
 +
 You need to switch the filter to LP02-568 in order to see the red laser in the image plane or the lenslet plane. For the green laser, use filter FB 500-40. Are the corner cubes in? Did the PAVO shutters get saved in the closed position? You need to switch the filter to LP02-568 in order to see the red laser in the image plane or the lenslet plane. For the green laser, use filter FB 500-40. Are the corner cubes in? Did the PAVO shutters get saved in the closed position?
  
 ---- ----
-Next: [[#Large_Jump_in_Image_Position|Large Jump in Image Position]], Previous: [[#Can_t_See_Laser_in_PAVO_Camera|Can't See Laser in PAVO Camera]], Up: [[#Troubleshooting|Troubleshooting]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#large_jump_in_image_position|Large Jump in Image Position]], Previous: [[#can_t_see_laser_in_pavo_camera|Can't See Laser in PAVO Camera]], Up: [[#troubleshooting|Troubleshooting]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 12.5 Dispersion is High ==== ==== 12.5 Dispersion is High ====
 +
 If the dispersion is high or if you can’t find fringes, you may want to check the glass offsets being sent to the LDC controls by the ople server. High dispersion will produce smeared, asymmetric fringes. This is mostly an issue in terms of tracking on the broadband fringes (post-processing is done using small sub-bandpasses). There are three ways to adjust the glass offsets: If the dispersion is high or if you can’t find fringes, you may want to check the glass offsets being sent to the LDC controls by the ople server. High dispersion will produce smeared, asymmetric fringes. This is mostly an issue in terms of tracking on the broadband fringes (post-processing is done using small sub-bandpasses). There are three ways to adjust the glass offsets:
  
   * As of July 2009, you can type “tg” into the PAVO server on a fringe finder or calibrator to correct for high dispersion. The fringes will disappear at first. When the fringes re-appear, type “tg” again to stop toggling the glass. After doing this, the dispersion should be low (< 2) when locked on fringes.   * As of July 2009, you can type “tg” into the PAVO server on a fringe finder or calibrator to correct for high dispersion. The fringes will disappear at first. When the fringes re-appear, type “tg” again to stop toggling the glass. After doing this, the dispersion should be low (< 2) when locked on fringes.
   * Opening the connection to ople to allow PAVO to communicate with ople and adjust the glass offsets automatically   * Opening the connection to ople to allow PAVO to communicate with ople and adjust the glass offsets automatically
-    * - PAVO server says whether the connection to ople is open or closed (default is closed) +      * - PAVO server says whether the connection to ople is open or closed (default is closed) 
-    * - If the dispersion is high (DISP column on PAVO server > 2), type “opleopen” into pavo server while tracking on fringes (AON) +      * - If the dispersion is high (DISP column on PAVO server > 2), type “opleopen” into pavo server while tracking on fringes (AON) 
-    * - This will allow PAVO to send commands to ople to adjust the goffsets +      * - This will allow PAVO to send commands to ople to adjust the goffsets 
-    * - Wait until the dispersion gets low while tracking on fringes +      * - Wait until the dispersion gets low while tracking on fringes 
-    * - Type “opleclose” in PAVO server to close connection and continue taking data +      * - Type “opleclose” in PAVO server to close connection and continue taking data 
-    * - DISP < 2 is good+      * - DISP < 2 is good
   * Change goffsets directly using the ople server   * Change goffsets directly using the ople server
-    * - Type “goffset” in ople server +      * - Type “goffset” in ople server 
-    * - Select the telescope for which you want to adjust the glass offset +      * - Select the telescope for which you want to adjust the glass offset 
-    * - Enter the goffset value you want to set+      * - Enter the goffset value you want to set
  
 ---- ----
-Next: [[#LDCs_won_t_Home|LDCs won't Home]], Previous: [[#Dispersion_is_High|Dispersion is High]], Up: [[#Troubleshooting|Troubleshooting]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#ldcs_won_t_home|LDCs won't Home]], Previous: [[#dispersion_is_high|Dispersion is High]], Up: [[#troubleshooting|Troubleshooting]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 12.6 Large Jump in Image Position ==== ==== 12.6 Large Jump in Image Position ====
- +
 If there is suddenly a large jump in the position of the image, it might be caused by L2 being at the end of its range. To check: If there is suddenly a large jump in the position of the image, it might be caused by L2 being at the end of its range. To check:
  
Line 717: Line 833:
  
 ---- ----
-Next: [[#Using_PAVO_with_Secondary_OPLE_and_Secondary_Cosmic_Debris|Using PAVO with Secondary OPLE and Secondary Cosmic Debris]], Previous: [[#Large_Jump_in_Image_Position|Large Jump in Image Position]], Up: [[#Troubleshooting|Troubleshooting]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#using_pavo_with_secondary_ople_and_secondary_cosmic_debris|Using PAVO with Secondary OPLE and Secondary Cosmic Debris]], Previous: [[#large_jump_in_image_position|Large Jump in Image Position]], Up: [[#troubleshooting|Troubleshooting]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 12.7 LDCs Won’t Home ==== ==== 12.7 LDCs Won’t Home ====
  
Line 724: Line 842:
  
 ---- ----
-Next: [[#Homing_the_lenslet_stage_motor_1|Homing the lenslet stage (motor 1)]], Previous: [[#LDCs_won_t_Home|LDCs won't Home]], Up: [[#Troubleshooting|Troubleshooting]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#homing_the_lenslet_stage_motor_1|Homing the lenslet stage (motor 1)]], Previous: [[#ldcs_won_t_home|LDCs won't Home]], Up: [[#troubleshooting|Troubleshooting]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 12.8 Using PAVO with Secondary OPLE and Secondary Cosmic Debris ==== ==== 12.8 Using PAVO with Secondary OPLE and Secondary Cosmic Debris ====
  
Line 732: Line 852:
  
 ---- ----
-Next: [[#If_you_need_to_home_only_one_of_the_PAVO_motors|If you need to home only one of the PAVO motors]], Previous: [[#Using_PAVO_with_Secondary_OPLE_and_Secondary_Cosmic_Debris|Using PAVO with Secondary OPLE and Secondary Cosmic Debris]], Up: [[#Troubleshooting|Troubleshooting]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#if_you_need_to_home_only_one_of_the_pavo_motors|If you need to home only one of the PAVO motors]], Previous: [[#using_pavo_with_secondary_ople_and_secondary_cosmic_debris|Using PAVO with Secondary OPLE and Secondary Cosmic Debris]], Up: [[#troubleshooting|Troubleshooting]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 12.9 Homing the lenslet stage (motor 1) ==== ==== 12.9 Homing the lenslet stage (motor 1) ====
-The zaber motor for the lenslet stage can get stuck while homing. This used to hang up the PAVO server while homing motor 1 during the zzero sequence. As of December 2015, Mike updated the PAVO code so that the zzero process skips the homing of motor 1. However, it still moves the stage to 0 and sends it to the last correct position. Therefore, it is important that motor 1 is “homed” and has a realistic 0 position before running the zzero procedure. + 
-Here are instructions for how to home the lenslet stage (motor 1):+The zaber motor for the lenslet stage can get stuck while homing. This used to hang up the PAVO server while homing motor 1 during the zzero sequence. As of December 2015, Mike updated the PAVO code so that the zzero process skips the homing of motor 1. However, it still moves the stage to 0 and sends it to the last correct position. Therefore, it is important that motor 1 is “homed” and has a realistic 0 position before running the zzero procedure. Here are instructions for how to home the lenslet stage (motor 1):
  
   * Go to the PAVO table and take off the black box covering the camera, filter wheel, and lenslet stage.   * Go to the PAVO table and take off the black box covering the camera, filter wheel, and lenslet stage.
Line 746: Line 868:
   * If the zaber motor is moving properly, then send it to a small absolute position by typing “za 1 1000”. Define this new position as 0 by typing “zsetposn 1 0” again. This should avoid sending the motor to a bad position at the edge of the zaber range during the zzero sequence.   * If the zaber motor is moving properly, then send it to a small absolute position by typing “za 1 1000”. Define this new position as 0 by typing “zsetposn 1 0” again. This should avoid sending the motor to a bad position at the edge of the zaber range during the zzero sequence.
   * Check that the zaber stage moves properly when given a large offset like “za 1 400000” or send the stage to the lenslet position by clicking [LENSLET] on the PAVO GUI. As of 2016Aug08, the pre-set zaber positions are:   * Check that the zaber stage moves properly when given a large offset like “za 1 400000” or send the stage to the lenslet position by clicking [LENSLET] on the PAVO GUI. As of 2016Aug08, the pre-set zaber positions are:
-    * - Image: 99,030 +      * - Image: 99,030 
-    * - Lenslet: 470,603 +      * - Lenslet: 470,603 
-    * - Pupil: 350,000+      * - Pupil: 350,000
   * If the lenslet zaber motor is moving as expected, then type “zzero” to continue homing all other motors (if they need to be homed).   * If the lenslet zaber motor is moving as expected, then type “zzero” to continue homing all other motors (if they need to be homed).
  
 ---- ----
-Next: [[#No_light_in_the_pupil_plane|No light in the pupil plane]], Previous: [[#Homing_the_lenslet_stage_motor_1|Homing the lenslet stage (motor 1)]], Up: [[#Troubleshooting|Troubleshooting]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#no_light_in_the_pupil_plane|No light in the pupil plane]], Previous: [[#homing_the_lenslet_stage_motor_1|Homing the lenslet stage (motor 1)]], Up: [[#troubleshooting|Troubleshooting]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 12.10 If you need to home only one of the PAVO motors ==== ==== 12.10 If you need to home only one of the PAVO motors ====
  
   * "zhome N" where N is the motor number listed in the ENG gui   * "zhome N" where N is the motor number listed in the ENG gui
   * Look at /ctrscrut/chara/etc/pavo_zaber_positions   * Look at /ctrscrut/chara/etc/pavo_zaber_positions
-    * - line 1 - motor 1 +      * - line 1 - motor 1 
-    * - line 2 - motor 2 +      * - line 2 - motor 2 
-    * - ...+      * - 
-    * - first number in each row is position 0 (i.e. the on-sky shutter open position)+      * - first number in each row is position 0 (i.e. the on-sky shutter open position)
   * "zmovabs 5 12345" - moves motor 5 to position 12345   * "zmovabs 5 12345" - moves motor 5 to position 12345
   * Alternate: "zread" - will read last saved positions and set motors.   * Alternate: "zread" - will read last saved positions and set motors.
-    * - This could be dangerous because it can overwrite any unsaved offsets+      * - This could be dangerous because it can overwrite any unsaved offsets
   * Motors have allowed ranges out to 132000.   * Motors have allowed ranges out to 132000.
  
 ---- ----
-Next: [[#PAVO_Server_-_Error_communicating_with_IFW|PAVO Server - Error communicating with IFW]], Previous: [[#If_you_need_to_home_only_one_of_the_PAVO_motors|If you need to home only one of the PAVO motors]], Up: [[#Troubleshooting|Troubleshooting]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#pavo_server_-_error_communicating_with_ifw|PAVO Server - Error communicating with IFW]], Previous: [[#if_you_need_to_home_only_one_of_the_pavo_motors|If you need to home only one of the PAVO motors]], Up: [[#troubleshooting|Troubleshooting]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 12.11 No light in the pupil plane ==== ==== 12.11 No light in the pupil plane ====
 +
 The pupil location saved in the pavo_zaber_positions file is not currently set to view the pupil. We found that the position of the zaber mount needed to view the pupil will either send the lenslet stage to a position where the imaging lens hits the side of the camera box cover or that the zaber stage extends so far out that it goes to a bad position. When this happens, the zaber stage will lose home and mess up the LENSLET and IMAGE positions. To avoid this we set the pupil position to a location where the mount for the imaging lens blocks all light from hitting the detector (so as not to confuse observers who might accidentally try to align using the pupil position). If the pupil (without the lenslet in) needs to be viewed, then this position will need to adjusted. The last recorded pupil position was 577,549; this would allow one to view about half of the pupil. The blocked pupil position is currently defined as 350,000. The pupil location saved in the pavo_zaber_positions file is not currently set to view the pupil. We found that the position of the zaber mount needed to view the pupil will either send the lenslet stage to a position where the imaging lens hits the side of the camera box cover or that the zaber stage extends so far out that it goes to a bad position. When this happens, the zaber stage will lose home and mess up the LENSLET and IMAGE positions. To avoid this we set the pupil position to a location where the mount for the imaging lens blocks all light from hitting the detector (so as not to confuse observers who might accidentally try to align using the pupil position). If the pupil (without the lenslet in) needs to be viewed, then this position will need to adjusted. The last recorded pupil position was 577,549; this would allow one to view about half of the pupil. The blocked pupil position is currently defined as 350,000.
  
 ---- ----
-Previous: [[#No_light_in_the_pupil_plane|No light in the pupil plane]], Up: [[#Troubleshooting|Troubleshooting]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Previous: [[#no_light_in_the_pupil_plane|No light in the pupil plane]], Up: [[#troubleshooting|Troubleshooting]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ==== 12.12 PAVO Server - Error communicating with IFW ==== ==== 12.12 PAVO Server - Error communicating with IFW ====
 +
 The following error message sometimes appears when starting the PAVO server: "Error communicating with IFW. Could not read from IFW. Is the filter wheel plugged in and on?" Most of the time, restarting the PAVO server will clear this error message and allow PAVO to communicate with the filter wheel. If restarting the server doesn’t help, then check that the cables going into the small, black IFW box on the PAVO table and into the back of the PAVO computer are plugged in securely. The following error message sometimes appears when starting the PAVO server: "Error communicating with IFW. Could not read from IFW. Is the filter wheel plugged in and on?" Most of the time, restarting the PAVO server will clear this error message and allow PAVO to communicate with the filter wheel. If restarting the server doesn’t help, then check that the cables going into the small, black IFW box on the PAVO table and into the back of the PAVO computer are plugged in securely.
  
 ---- ----
-Next: [[#Index|Index]], Previous: [[#Troubleshooting|Troubleshooting]], Up: [[#Top|Top]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Next: [[#index|Index]], Previous: [[#troubleshooting|Troubleshooting]], Up: [[#top|Top]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ===== 13 Random and Important Notes ===== ===== 13 Random and Important Notes =====
  
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   * You need to switch filter to see the laser in the image plane or the lenslet plane.   * You need to switch filter to see the laser in the image plane or the lenslet plane.
   * Restarting pavo:   * Restarting pavo:
-    * - Click [REOPEN] on Cosmic Debris. +      * - Click [REOPEN] on Cosmic Debris. 
-    * - Click [object] on Cosmic Debris to re-acquire target in order to set target name (otherwise type "HD 12345" on pavo; type "star" to check)+      * - Click [object] on Cosmic Debris to re-acquire target in order to set target name (otherwise type "HD 12345" on pavo; type "star" to check)
   * If you need to reset the glass in primary ople server, e.g. if you’ve changed baselines and the glass for an old telescope is at -20mm, type into the ople server or speak session:   * If you need to reset the glass in primary ople server, e.g. if you’ve changed baselines and the glass for an old telescope is at -20mm, type into the ople server or speak session:
-    * > > autoldc off ; tells ople to stop moving the LDC’s +      * > > autoldc off ; tells ople to stop moving the LDC’s 
-    * - Using the LDC Gui, set the velocity of the glass in question to 50, home the glass, then turn it off. Back in the ople server: +      * - Using the LDC Gui, set the velocity of the glass in question to 50, home the glass, then turn it off. Back in the ople server: 
-    * > > autoldc on+      * > > autoldc on
   * If the display freezes: click [NO DISPLAY], [REOPEN] and [DISPLAY].   * If the display freezes: click [NO DISPLAY], [REOPEN] and [DISPLAY].
-    * - If that still doesn’t work, close PAVO GUI and reopen it. +      * - If that still doesn’t work, close PAVO GUI and reopen it. 
-  * If you totally screw up the alignment... you should do a "zzero" +  * If you totally screw up the alignment… you should do a "zzero" 
-  * If you totally screw up the zaber save file... look for old files with dates as part of their name in /ctrscrut/chara/etc/. These files are automatically created whenever a zwrite is done. Copy one of these files to /ctrscrut/chara/etc/pavo_zaber_positions, do a "zread" then a "zzero".+  * If you totally screw up the zaber save file… look for old files with dates as part of their name in /ctrscrut/chara/etc/. These files are automatically created whenever a zwrite is done. Copy one of these files to /ctrscrut/chara/etc/pavo_zaber_positions, do a "zread" then a "zzero".
   * What happens if alignment was good, PAVO crashes, then alignment screws up? This generally only happens if you adjusted the PAVO alignment considerably, didn’t do a "zwrite" and left the "shutters" closed. Then the M1 mirrors will be left in their "shutter closed" postition, and the software will not know where you adjusted it last time. However, it generally isn’t too hard to find the beam again because only M1 vertical (y) will be out.   * What happens if alignment was good, PAVO crashes, then alignment screws up? This generally only happens if you adjusted the PAVO alignment considerably, didn’t do a "zwrite" and left the "shutters" closed. Then the M1 mirrors will be left in their "shutter closed" postition, and the software will not know where you adjusted it last time. However, it generally isn’t too hard to find the beam again because only M1 vertical (y) will be out.
   * How does PAVO remember the saved positions (e.g. in the PAVO engineering GUI)? Whenever you go to another saved position (e.g. using the engineering GUI, or clicking [MASK OUT] or one of the shutters [B1] [B2] [B3] or [IMAGE] or [PUPIL], if you are selecting a position you are already at, you go to the last saved raw position for this setting. If you select a different setting (e.g. by clicking [B1] after adjusting it) the previous raw position is saved in memory.   * How does PAVO remember the saved positions (e.g. in the PAVO engineering GUI)? Whenever you go to another saved position (e.g. using the engineering GUI, or clicking [MASK OUT] or one of the shutters [B1] [B2] [B3] or [IMAGE] or [PUPIL], if you are selecting a position you are already at, you go to the last saved raw position for this setting. If you select a different setting (e.g. by clicking [B1] after adjusting it) the previous raw position is saved in memory.
   * Tricky power-user shortcut: to get ctrscrut window just type "ctrscrut" on rocs   * Tricky power-user shortcut: to get ctrscrut window just type "ctrscrut" on rocs
   * How can I see the Wazoo log from ROCS? From a ctrscrut terminal "cd /ctrscrut/chara/data" then look at the appropriate status_xxx.txt file. A new one is written with each reopen.   * How can I see the Wazoo log from ROCS? From a ctrscrut terminal "cd /ctrscrut/chara/data" then look at the appropriate status_xxx.txt file. A new one is written with each reopen.
-  * If using the choppers in 3T mode, set the chopper frequencies in the lab to\\  B1: 4 Hz, B3: 5 Hz.+  * If using the choppers in 3T mode, set the chopper frequencies in the lab to \\ B1: 4 Hz, B3: 5 Hz.
  
 ---- ----
-Previous: [[#Random_and_Important_Notes|Random and Important Notes]], Up: [[#Top|Top]] [[#table_of_Contents|Contents]] [[#Index|Index]]+ 
 +Previous: [[#random_and_important_notes|Random and Important Notes]], Up: [[#top|Top]] [[#table_of_contents|Contents]] [[#index|Index]] 
 ===== 14 Index ===== ===== 14 Index =====
  
-^ Jump to: | [[#A|**A**]] [[#B|**B**]] [[#C|**C**]] [[#D|**D**]] [[#E|**E**]] [[#F|**F**]] [[#G|**G**]] [[#I|**I**]] [[#J|**J**]] [[#L|**L**]] [[#O|**O**]] [[#S|**S**]] [[#T|**T**]] [[#W|**W**]] [[#Z|**Z**]] |+^Jump to:|[[#a|**A**]] [[#b|**B**]] [[#c|**C**]] [[#d|**D**]] [[#e|**E**]] [[#f|**F**]] [[#g|**G**]] [[#i|**I**]] [[#j|**J**]] [[#l|**L**]] [[#o|**O**]] [[#s|**S**]] [[#t|**T**]] [[#w|**W**]] [[#z|**Z**]]|
  
-|   ^ Index Entry |   ^ Section ^ +|   ^Index Entry|   ^Section
-===A=== + 
-|   | [[#Can_t_See_Laser_in_Acquistion|acquistion, laser]]: |   | [[#Can_t_See_Laser_in_Acquistion|Can't See Laser in Acquistion]] | +=== A === 
-|   | [[#Align_Image|align image]]: |   | [[#Align_Image|Align Image]] | + 
-|   | [[#Aligning_PAVO_in_the_Lab|align lab]]: |   | [[#Aligning_PAVO_in_the_Lab|Aligning PAVO in the Lab]] | +|   |[[#can_t_see_laser_in_acquistion|acquistion, laser]]:  |[[#can_t_see_laser_in_acquistion|Can't See Laser in Acquistion]]| 
-|   | [[#On-sky_Alignment|align on-sky]]: |   | [[#On-sky_Alignment|On-sky Alignment]] | +|   |[[#align_image|align image]]:  |[[#align_image|Align Image]]| 
-|   | [[#Align_Pupil|align pupil]]: |   | [[#Align_Pupil|Align Pupil]] | +|   |[[#aligning_pavo_in_the_lab|align lab]]:  |[[#aligning_pavo_in_the_lab|Aligning PAVO in the Lab]]| 
-|   | [[#Align_Wavelength_Scale_in_Lab|align wavelength scale]]: |   | [[#Align_Wavelength_Scale_in_Lab|Align Wavelength Scale in Lab]] | +|   |[[#on-sky_alignment|align on-sky]]:  |[[#on-sky_alignment|On-sky Alignment]]| 
-|   | [[#Overview_of_Alignment_Steps|alignment overview]]: |   | [[#Overview_of_Alignment_Steps|Overview of Alignment Steps]] | +|   |[[#align_pupil|align pupil]]:  |[[#align_pupil|Align Pupil]]| 
-===B=== +|   |[[#align_wavelength_scale_in_lab|align wavelength scale]]:  |[[#align_wavelength_scale_in_lab|Align Wavelength Scale in Lab]]| 
-|   | [[#Take_Backgrounds|backgrounds]]: |   | [[#Take_Backgrounds|Take Backgrounds]] | +|   |[[#overview_of_alignment_steps|alignment overview]]:  |[[#overview_of_alignment_steps|Overview of Alignment Steps]]| 
-|   | [[#Recommendations_for_Setting_Beam_Order|beam order]]: |   | [[#Recommendations_for_Setting_Beam_Order|Recommendations for Setting Beam Order]] | + 
-===C=== +=== B === 
-|   | [[#Cooling_Down_the_PAVO_Camera|camera, cool]]: |   | [[#Cooling_Down_the_PAVO_Camera|Cooling Down the PAVO Camera]] | + 
-|   | [[#Can_t_Find_Fringes|can’t find fringes]]: |   | [[#Can_t_Find_Fringes|Can't Find Fringes]] | +|   |[[#take_backgrounds|backgrounds]]:  |[[#take_backgrounds|Take Backgrounds]]| 
-|   | [[#Can_t_See_Laser_in_Acquistion|can’t see laser in acquistion]]: |   | [[#Can_t_See_Laser_in_Acquistion|Can't See Laser in Acquistion]] | +|   |[[#recommendations_for_setting_beam_order|beam order]]:  |[[#recommendations_for_setting_beam_order|Recommendations for Setting Beam Order]]| 
-|   | [[#Can_t_See_Laser_in_PAVO_Camera|can’t see laser in pavo camera]]: |   | [[#Can_t_See_Laser_in_PAVO_Camera|Can't See Laser in PAVO Camera]] | + 
-|   | [[#Random_and_Important_Notes|choppers]]: |   | [[#Random_and_Important_Notes|Random and Important Notes]] | +=== C === 
-|   | [[#Cooling_Down_the_PAVO_Camera|cool camera]]: |   | [[#Cooling_Down_the_PAVO_Camera|Cooling Down the PAVO Camera]] | + 
-===D=== +|   |[[#cooling_down_the_pavo_camera|camera, cool]]:  |[[#cooling_down_the_pavo_camera|Cooling Down the PAVO Camera]]| 
-|   | [[#Dispersion_is_High|dispersion, high]]: |   | [[#Dispersion_is_High|Dispersion is High]] | +|   |[[#can_t_find_fringes|can’t find fringes]]:  |[[#can_t_find_fringes|Can't Find Fringes]]| 
-===E=== +|   |[[#can_t_see_laser_in_acquistion|can’t see laser in acquistion]]:  |[[#can_t_see_laser_in_acquistion|Can't See Laser in Acquistion]]| 
-|   | [[#PAVO_Engineering_GUI|engineering gui]]: |   | [[#PAVO_Engineering_GUI|PAVO Engineering GUI]] | +|   |[[#can_t_see_laser_in_pavo_camera|can’t see laser in pavo camera]]:  |[[#can_t_see_laser_in_pavo_camera|Can't See Laser in PAVO Camera]]| 
-===F=== +|   |[[#random_and_important_notes|choppers]]:  |[[#random_and_important_notes|Random and Important Notes]]| 
-|   | [[#Fringe_Finding_Sources|fringe finding star]]: |   | [[#Fringe_Finding_Sources|Fringe Finding Sources]] | +|   |[[#cooling_down_the_pavo_camera|cool camera]]:  |[[#cooling_down_the_pavo_camera|Cooling Down the PAVO Camera]]| 
-===G=== + 
-|   | [[#PAVO_GUI|gui]]: |   | [[#PAVO_GUI|PAVO GUI]] | +=== D === 
-===I=== + 
-|   | [[#Large_Jump_in_Image_Position|image position, jump]]: |   | [[#Large_Jump_in_Image_Position|Large Jump in Image Position]] | +|   |[[#dispersion_is_high|dispersion, high]]:  |[[#dispersion_is_high|Dispersion is High]]| 
-|   | [[#Random_and_Important_Notes|important notes]]: |   | [[#Random_and_Important_Notes|Random and Important Notes]] | + 
-|   | [[#Introduction|introduction]]: |   | [[#Introduction|Introduction]] | +=== E === 
-===J=== + 
-|   | [[#Large_Jump_in_Image_Position|jump in image position]]: |   | [[#Large_Jump_in_Image_Position|Large Jump in Image Position]] | +|   |[[#pavo_engineering_gui|engineering gui]]:  |[[#pavo_engineering_gui|PAVO Engineering GUI]]| 
-===L=== + 
-|   | [[#Can_t_See_Laser_in_Acquistion|laser, acquistion]]: |   | [[#Can_t_See_Laser_in_Acquistion|Can't See Laser in Acquistion]] | +=== F === 
-|   | [[#LDCs_won_t_Home|LDCs won’t home]]: |   | [[#LDCs_won_t_Home|LDCs won't Home]] | + 
-===O=== +|   |[[#fringe_finding_sources|fringe finding star]]:  |[[#fringe_finding_sources|Fringe Finding Sources]]| 
-|   | [[#Observing_with_PAVO|observing procedures]]: |   | [[#Observing_with_PAVO|Observing with PAVO]] | + 
-|   | [[#Detailed_Observing_Notes|observing procedures]]: |   | [[#Detailed_Observing_Notes|Detailed Observing Notes]] | +=== G === 
-|   | [[#Recommendations_for_Setting_Beam_Order|order, beams]]: |   | [[#Recommendations_for_Setting_Beam_Order|Recommendations for Setting Beam Order]] | + 
-===S=== +|   |[[#pavo_gui|gui]]:  |[[#pavo_gui|PAVO GUI]]| 
-|   | [[#Using_PAVO_with_Secondary_OPLE_and_Secondary_Cosmic_Debris|secondary ople]]: |   | [[#Using_PAVO_with_Secondary_OPLE_and_Secondary_Cosmic_Debris|Using PAVO with Secondary OPLE and Secondary Cosmic Debris]] | + 
-|   | [[#Description_of_PAVO_Server_and_GUI|server]]: |   | [[#Description_of_PAVO_Server_and_GUI|Description of PAVO Server and GUI]] | +=== I === 
-|   | [[#PAVO_Server_Status_Window|server]]: |   | [[#PAVO_Server_Status_Window|PAVO Server/Status Window]] | + 
-|   | [[#Recommendations_for_Setting_Beam_Order|setup beams]]: |   | [[#Recommendations_for_Setting_Beam_Order|Recommendations for Setting Beam Order]] | +|   |[[#large_jump_in_image_position|image position, jump]]:  |[[#large_jump_in_image_position|Large Jump in Image Position]]| 
-|   | [[#Shutting_down_PAVO|shut down]]: |   | [[#Shutting_down_PAVO|Shutting down PAVO]] | +|   |[[#random_and_important_notes|important notes]]:  |[[#random_and_important_notes|Random and Important Notes]]| 
-|   | [[#Starting_PAVO_Software|software setup]]: |   | [[#Starting_PAVO_Software|Starting PAVO Software]] | +|   |[[#introduction|introduction]]:  |[[#introduction|Introduction]]| 
-|   | [[#Can_t_See_Starlight_on_Dectector|starlight, not on detector]]: |   | [[#Can_t_See_Starlight_on_Dectector|Can't See Starlight on Dectector]] | + 
-|   | [[#Description_of_PAVO_Server_and_GUI|status window]]: |   | [[#Description_of_PAVO_Server_and_GUI|Description of PAVO Server and GUI]] | +=== J === 
-|   | [[#PAVO_Server_Status_Window|status window]]: |   | [[#PAVO_Server_Status_Window|PAVO Server/Status Window]] | + 
-===T=== +|   |[[#large_jump_in_image_position|jump in image position]]:  |[[#large_jump_in_image_position|Large Jump in Image Position]]| 
-|   | [[#Troubleshooting|troubleshooting]]: |   | [[#Troubleshooting|Troubleshooting]] | + 
-===W=== +=== L === 
-|   | [[#Align_Wavelength_Scale_in_Lab|wavelength scale]]: |   | [[#Align_Wavelength_Scale_in_Lab|Align Wavelength Scale in Lab]] | + 
-===Z=== +|   |[[#can_t_see_laser_in_acquistion|laser, acquistion]]:  |[[#can_t_see_laser_in_acquistion|Can't See Laser in Acquistion]]| 
-|   | [[#Save_Alignment_Positions|zwrite]]: |   | [[#Save_Alignment_Positions|Save Alignment Positions]] | +|   |[[#ldcs_won_t_home|LDCs won’t home]]:  |[[#ldcs_won_t_home|LDCs won't Home]]| 
-|   | [[#Homing_the_lenslet_stage_motor_1|zzero]]: |   | [[#Homing_the_lenslet_stage_motor_1|Homing the lenslet stage (motor 1)]] |+ 
 +=== O === 
 + 
 +|   |[[#observing_with_pavo|observing procedures]]:  |[[#observing_with_pavo|Observing with PAVO]]| 
 +|   |[[#detailed_observing_notes|observing procedures]]:  |[[#detailed_observing_notes|Detailed Observing Notes]]| 
 +|   |[[#recommendations_for_setting_beam_order|order, beams]]:  |[[#recommendations_for_setting_beam_order|Recommendations for Setting Beam Order]]| 
 + 
 +=== S === 
 + 
 +|   |[[#using_pavo_with_secondary_ople_and_secondary_cosmic_debris|secondary ople]]:  |[[#using_pavo_with_secondary_ople_and_secondary_cosmic_debris|Using PAVO with Secondary OPLE and Secondary Cosmic Debris]]| 
 +|   |[[#description_of_pavo_server_and_gui|server]]:  |[[#description_of_pavo_server_and_gui|Description of PAVO Server and GUI]]| 
 +|   |[[#pavo_server_status_window|server]]:  |[[#pavo_server_status_window|PAVO Server/Status Window]]| 
 +|   |[[#recommendations_for_setting_beam_order|setup beams]]:  |[[#recommendations_for_setting_beam_order|Recommendations for Setting Beam Order]]| 
 +|   |[[#shutting_down_pavo|shut down]]:  |[[#shutting_down_pavo|Shutting down PAVO]]| 
 +|   |[[#starting_pavo_software|software setup]]:  |[[#starting_pavo_software|Starting PAVO Software]]| 
 +|   |[[#can_t_see_starlight_on_dectector|starlight, not on detector]]:  |[[#can_t_see_starlight_on_dectector|Can't See Starlight on Dectector]]| 
 +|   |[[#description_of_pavo_server_and_gui|status window]]:  |[[#description_of_pavo_server_and_gui|Description of PAVO Server and GUI]]| 
 +|   |[[#pavo_server_status_window|status window]]:  |[[#pavo_server_status_window|PAVO Server/Status Window]]| 
 + 
 +=== T === 
 + 
 +|   |[[#troubleshooting|troubleshooting]]:  |[[#troubleshooting|Troubleshooting]]| 
 + 
 +=== W === 
 + 
 +|   |[[#align_wavelength_scale_in_lab|wavelength scale]]:  |[[#align_wavelength_scale_in_lab|Align Wavelength Scale in Lab]]| 
 + 
 +=== Z === 
 + 
 +|   |[[#save_alignment_positions|zwrite]]:  |[[#save_alignment_positions|Save Alignment Positions]]| 
 +|   |[[#homing_the_lenslet_stage_motor_1|zzero]]:  |[[#homing_the_lenslet_stage_motor_1|Homing the lenslet stage (motor 1)]]| 
 + 
 +^Jump to:|[[#a|**A**]] [[#b|**B**]] [[#c|**C**]] [[#d|**D**]] [[#e|**E**]] [[#f|**F**]] [[#g|**G**]] [[#i|**I**]] [[#j|**J**]] [[#l|**L**]] [[#o|**O**]] [[#s|**S**]] [[#t|**T**]] [[#w|**W**]] [[#z|**Z**]]|
  
-^ Jump to: | [[#A|**A**]] [[#B|**B**]] [[#C|**C**]] [[#D|**D**]] [[#E|**E**]] [[#F|**F**]] [[#G|**G**]] [[#I|**I**]] [[#J|**J**]] [[#L|**L**]] [[#O|**O**]] [[#S|**S**]] [[#T|**T**]] [[#W|**W**]] [[#Z|**Z**]] | 
 ===== Table of Contents ===== ===== Table of Contents =====
  
-  * [[#Introduction|1 Introduction]] +  * [[#introduction|1 Introduction]] 
-  * [[#Cooling_Down_the_PAVO_Camera|2 Cooling Down the PAVO Camera]] +  * [[#cooling_down_the_pavo_camera|2 Cooling Down the PAVO Camera]] 
-  * [[#Overview_of_Alignment_Steps|3 Overview of Alignment Steps]] +  * [[#overview_of_alignment_steps|3 Overview of Alignment Steps]] 
-  * [[#Aligning_PAVO_in_the_Lab|4 Aligning PAVO in the Lab]] +  *  [[#aligning_pavo_in_the_lab|4 Aligning PAVO in the Lab]] 
-    * [[#Basic_Alignment_of_PAVO_in_the_Lab|4.1 Basic Alignment of PAVO in the Lab]] +      * [[#basic_alignment_of_pavo_in_the_lab|4.1 Basic Alignment of PAVO in the Lab]] 
-    * [[#Checking_Alignment_on_PAVO_Lenses|4.2 Checking Alignment on PAVO Lenses]] +      * [[#checking_alignment_on_pavo_lenses|4.2 Checking Alignment on PAVO Lenses]] 
-    * [[#Checking_Alignment_on_PAVO_Camera|4.3 Checking Alignment on PAVO Camera]] +      * [[#checking_alignment_on_pavo_camera|4.3 Checking Alignment on PAVO Camera]] 
-    * [[#Align_Wavelength_Scale_in_Lab|4.4 Align Wavelength Scale in Lab]] +      * [[#align_wavelength_scale_in_lab|4.4 Align Wavelength Scale in Lab]] 
-    * [[#Adjusting_PAVO_Coarse_Alignment|4.5 Adjusting PAVO Coarse Alignment]] +       [[#adjusting_pavo_coarse_alignment|4.5 Adjusting PAVO Coarse Alignment]] 
-      * [[#Step_1_-_Correct_for_offset_on_L1|4.5.1 Step 1 - Correct for offset on L1]] +        * [[#step_1_-_correct_for_offset_on_l1|4.5.1 Step 1 - Correct for offset on L1]] 
-      * [[#Step-2_-_Correct_for_offset_on_L2|4.5.2 Step 2 - Correct for offset on L2]] +        * [[#step_2_-_correct_for_offset_on_l2|4.5.2 Step 2 - Correct for offset on L2]] 
-    * [[#Changing_focus|4.6 Changing focus]] +      * [[#changing_focus|4.6 Changing focus]] 
-    * [[#General_Alignment_Notes|4.7 General Alignment Notes]] +      * [[#general_alignment_notes|4.7 General Alignment Notes]] 
-  * [[#Description_of_PAVO_Server_and_GUI|5 Description of PAVO Server and GUI]] +  *  [[#description_of_pavo_server_and_gui|5 Description of PAVO Server and GUI]] 
-    * [[#PAVO_Server_Status_Window|5.1 PAVO Server/Status Window]] +      * [[#pavo_server_status_window|5.1 PAVO Server/Status Window]] 
-    * [[#PAVO_GUI|5.2 PAVO GUI]] +      * [[#pavo_gui|5.2 PAVO GUI]] 
-    * [[#PAVO_Engineering_GUI|5.3 PAVO Engineering GUI]] +      * [[#pavo_engineering_gui|5.3 PAVO Engineering GUI]] 
-  * [[#Starting_PAVO_Software|6 Starting PAVO Software]] +  * [[#starting_pavo_software|6 Starting PAVO Software]] 
-  * [[#On-sky_Alignment|7 On-sky Alignment]] +  *  [[#on-sky_alignment|7 On-sky Alignment]] 
-    * [[#Setting_Detector_Gain|7.1 Setting Detector Gain]] +      * [[#setting_detector_gain|7.1 Setting Detector Gain]] 
-    * [[#Take_Backgrounds|7.2 Take Backgrounds]] +      * [[#take_backgrounds|7.2 Take Backgrounds]] 
-    * [[#Align_Image|7.3 Align Image]] +      * [[#align_image|7.3 Align Image]] 
-    * [[#Align_Pupil|7.4 Align Pupil]] +      * [[#align_pupil|7.4 Align Pupil]] 
-    * [[#Save_Alignment_Positions|7.5 Save Alignment Positions]] +      * [[#save_alignment_positions|7.5 Save Alignment Positions]] 
-  * [[#Observing_with_PAVO|8 Observing with PAVO]] +  *  [[#observing_with_pavo|8 Observing with PAVO]] 
-    * [[#Important_Notes|8.1 Important Notes]] +      * [[#important_notes|8.1 Important Notes]] 
-    * [[#Target_Acquistion|8.2 Target Acquistion]] +      * [[#target_acquistion|8.2 Target Acquistion]] 
-    * [[#Searching_for_Fringes|8.3 Searching for Fringes]] +      * [[#searching_for_fringes|8.3 Searching for Fringes]] 
-    * [[#Detailed_Observing_Notes|8.4 Detailed Observing Notes]] +      * [[#detailed_observing_notes|8.4 Detailed Observing Notes]] 
-  * [[#Shutting_down_PAVO|9 Shutting down PAVO]] +  * [[#shutting_down_pavo|9 Shutting down PAVO]] 
-  * [[#Recommendations_for_Setting_Beam_Order|10 Recommendations for Setting Beam Order]] +  * [[#recommendations_for_setting_beam_order|10 Recommendations for Setting Beam Order]] 
-  * [[#Fringe_Finding_Sources|11 Fringe Finding Sources]] +  * [[#fringe_finding_sources|11 Fringe Finding Sources]] 
-  * [[#Troubleshooting|12 Troubleshooting]] +  *  [[#troubleshooting|12 Troubleshooting]] 
-    * [[#Can_t_Find_Fringes|12.1 Can’t Find Fringes]] +      * [[#can_t_find_fringes|12.1 Can’t Find Fringes]] 
-    * [[#Can_t_See_Laser_in_Acquistion|12.2 Can’t See Laser in Acquistion]] +      * [[#can_t_see_laser_in_acquistion|12.2 Can’t See Laser in Acquistion]] 
-    * [[#Can_t_See_Starlight_on_Dectector|12.3 Can’t See Starlight on Dectector]] +      * [[#can_t_see_starlight_on_dectector|12.3 Can’t See Starlight on Dectector]] 
-    * [[#Can_t_See_Laser_in_PAVO_Camera|12.4 Can’t See Laser in PAVO Camera]] +      * [[#can_t_see_laser_in_pavo_camera|12.4 Can’t See Laser in PAVO Camera]] 
-    * [[#Dispersion_is_High|12.5 Dispersion is High]] +      * [[#dispersion_is_high|12.5 Dispersion is High]] 
-    * [[#Large_Jump_in_Image_Position|12.6 Large Jump in Image Position]] +      * [[#large_jump_in_image_position|12.6 Large Jump in Image Position]] 
-    * [[#LDCs_won_t_Home|12.7 LDCs Won’t Home]] +      * [[#ldcs_won_t_home|12.7 LDCs Won’t Home]] 
-    * [[#Using_PAVO_with_Secondary_OPLE_and_Secondary_Cosmic_Debris|12.8 Using PAVO with Secondary OPLE and Secondary Cosmic Debris]] +      * [[#using_pavo_with_secondary_ople_and_secondary_cosmic_debris|12.8 Using PAVO with Secondary OPLE and Secondary Cosmic Debris]] 
-    * [[#Homing_the_lenslet_stage_motor_1|12.9 Homing the lenslet stage (motor 1)]] +      * [[#homing_the_lenslet_stage_motor_1|12.9 Homing the lenslet stage (motor 1)]] 
-    * [[#If_you_need_to_home_only_one_of_the_PAVO_motors|12.10 If you need to home only one of the PAVO motors]] +      * [[#if_you_need_to_home_only_one_of_the_pavo_motors|12.10 If you need to home only one of the PAVO motors]] 
-    * [[#No_light_in_the_pupil_plane|12.11 No light in the pupil plane]] +      * [[#no_light_in_the_pupil_plane|12.11 No light in the pupil plane]] 
-    * [[#PAVO_Server_-_Error_communicating_with_IFW|12.12 PAVO Server - Error communicating with IFW]] +      * [[#pavo_server_-_error_communicating_with_ifw|12.12 PAVO Server - Error communicating with IFW]] 
-  * [[#Random_and_Important_Notes|13 Random and Important Notes]] +  * [[#random_and_important_notes|13 Random and Important Notes]] 
-  * [[#Index|14 Index]]+  * [[#index|14 Index]]
  
 ---- ----
 +
 +
chara/pavo_user_manual.1530890554.txt.gz · Last modified: 2018/07/06 11:22 by jones