CHAMP:Manual: Difference between revisions
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Zaber configuration file [[Media:zaber_alignment.txt]] | Zaber configuration file before the June 2012 alignment [[Media:zaber_alignment.txt]] | ||
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n=5 -> -0.225 | n=5 -> -0.225 | ||
11 June 2012: fringes on W1(B1)-W2(B6) on MIRC, with W1 at 1.000000 m and W2 at 1.222525 m. | |||
Ealing IR1 68580 | |||
Ealing IR6 87750 | |||
15 June 2012: W1(B1)-W2(B2) 2.200000m and 2.0079, offset was -1.1 mm | |||
=== J band experiment === | |||
Adding Michigan shortpass filter 1.3 um, counts 80 -> 50 (white light on ND 1 + metrology) | |||
----------------- | ----------------- | ||
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May 2011 row 7 col 22 | May 2011 row 7 col 22 | ||
May 2012 | May 2012 row 7 col 18 | ||
------ | ------ | ||
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| 12 || B5 || L5 || Dichroic 5 || top spot | | 12 || B5 || L5 || Dichroic 5 || top spot | ||
|- | |- | ||
| 13 || B5 || R6 || T1M || | | 13 || B5 || R6 || T1M || bottom spot | ||
|- | |- | ||
| 14 || B5 || R5 || BC4-5 || bottom spot | | 14 || B5 || R5 || BC4-5 || bottom spot | ||
Latest revision as of 02:13, 16 June 2012
Manual for the CHARA-Michigan Phasetracker
Overview[edit]
| Tools | Username@Computer | Command | Comments | |
|---|---|---|---|---|
| CHAMP server | champdev@champ | champ_server | ||
| CHAMP spooler | champdev@champ | champ_spooler | ||
| Filters GUI | devel@wolverine | filtergui | ||
| Picomotor GUI | devel@wolverine | picogui | ||
| Fringe Tracking GUI | devel@wolverine | ftgui | ||
| Infrared camera GUI | devel@wolverine | ircamgui | ||
| ESP GUI | observe@zoot | espgtk RETRO | server command in /etc/rc.d/rc.local | |
| Shutter GUI | observe@zoot | shutgtk |
| Computer | IP |
|---|---|
| champ | 192.168.3.136 |
| wolverine | 192.168.3.143 |
| zoot | 192.168.3.31 |
| lothlorien | 192.168.3.134 |
| ctrscrut | 192.168.3.3 |
| mirkwood | 192.168.3.131 |
Quick Startup Guide[edit]
How to log into CHAMP for development.
1) Power on outlets
Open in a web browser the CHAMP and MIRC APC controls: Use Immediate Turn On for:
- CHAMP scanning PZTs
- CHAMP Electronics
- CHAMP picomotors (#1, 2, 4 in the list).
- MIRC MOXA Serial Port box.
2) Launch CHAMP server (fringe tracking and camera engine)
3) Launch CHAMP spooler (data saving)
4) Launch the infrared camera GUI
Once the IR Camera gui appears:
- click Update DAQ in the FPA Tab.
- click Update Server in the FT Tab.
- click Config Camera in the FPA Tab.
- click Start Exposure in the top bar.
The camera will start acquiring frames.
4) Launch the Fringe Tracking GUI
Alignment[edit]
Nightly Alignment[edit]
Start the shutters and picomotors GUI.
Internal fringes with retros[edit]
HOW TO GET RETRO FRINGES
- Start the retro-reflector GUI.
- Press RETE1 (becomes green), home it, select step size of 4 microns (0.004).
- for automatic RETRO search, use acceleration = 0.1, and vel=0.02.
RESULTS
- May 2011 results (+/- around 0.1 mm repeatability) with the pickoff mirrors in fiducial position (mount and platform aligned manually):
BC: 58440
IR1 175910, IR2 172160, IR3 173123, IR4 172835, IR5 173756
W1W2 on B1B2: 3.15 mm (May 5) -- May 18 2011: 2.94 mm
W1W2 on B2B3: 6.84 mm (May 5) -- May 18 2011: 6.77 mm
W1W2 on B3B4: 3.28 mm -- May 17 2011: 3.12 mm for CHAMP and MIRC 4.51 mm (MIRC fiducial position)
W1W2 on B4B5: 5.70 mm -- May 18 2011: 5.14 mm for CHAMP
W1W2 on B5B6: 10.36 mm (found with IR5 210007 and BC at 0) -- May 18 2011 10.38 for champ
W1W2 on B6B1: not found
- July 2011
Retro fringes so that we can phase with the optical combiner, with the far right vernier mirrors visually aligned.
Retro position:
B1B2 5.10 (checked Jul 2011 with visible combiner)
B2B3 5.940
B3B4 5.375
B4B5 5.841
B5B6 5.720
B6B1 -----
Pickoff
IR1: 183939 (July 14th)
IR2: 177589 (July 13th)
IR3: 160452 (July 13th)
IR4: 151714 (July 13th)
IR5: 141585 (July 12th)
BC: 58440 for the moment
Zaber configuration file before the June 2012 alignment Media:zaber_alignment.txt
Jun 9 2012
IR pickoffs in default position
Before re-alignment B1B2 5.52
After re-alignment
B1B2 5.39
B3B4 5.55
B5B6 5.50 -> 5.28 after moving PZT 6 mount
Internal fringes with delaylines[edit]
Jan 2011: Using Delaylines+ new delayline retros
B3/B4, W1 2.2000, W2 2.0079
15 July 2011: fringes on W1(B1)-W2(B6) on MIRC, with W1 at 1.000000 m and W2 at 1.222642 m.
B6/B1. W1 2.0000, W2 2.2250
Delayline delay equation
W1- W2 = delay = 0.295 - 0.104 n
where n= difference between beam numbers
n=1 -> 0.191
n=5 -> -0.225
11 June 2012: fringes on W1(B1)-W2(B6) on MIRC, with W1 at 1.000000 m and W2 at 1.222525 m. Ealing IR1 68580 Ealing IR6 87750
15 June 2012: W1(B1)-W2(B2) 2.200000m and 2.0079, offset was -1.1 mm
J band experiment[edit]
Adding Michigan shortpass filter 1.3 um, counts 80 -> 50 (white light on ND 1 + metrology)
Full Alignment[edit]
STEP 1
- Turn on the CHAMP alignment laser (red) on the CHAMP table
- Align each beam on R1 target using A0
- Align on L1 using A1
- Align on R2 using A2, putting blocker on R1 (using L1/L2-target), so you don't see two spots
- Align on target L2 using A3, putting blocker on L1 (using the R1/2-target).
STEP 2
- Remove all blockers, put a blocker on R1
- Align on Towers of Power 1 and 2 using R1-R6
- Remove all blockers, put a blocker on L1
- Align on Towers of Power 3 and 4 using L1-L6 mirrors
- Align on Tower of Power 1-2 using beam splitter A4
- Check the alignment on Tower of Power 3-4
STEP 3
- Put camera target in front of camera
- Align on camera target using the Towers of Power and the cheat sheet: each spot should be near the edge of the pyramid, so that it's nearly jumping if you move the mirror knobs.
- Turn off the alignment laser
Setting up camera to align spots[edit]
Last step is to align the picomotor actuated mirrors using the actual infrared images.
Configurations for wide field and normal modes can be found in mainWindow.py.
Due to mechanical shifts of the camera (when filling it), the spots may not appears where expected, needing to offset the camera read by a few pixels (or in a worst case scenario to realign the pyramid).
2010 Jul center of pyramid on wide-field image: 23, 8 2010Jul: row off: 7, col off: 9, freq: 30
Jan 2011 row off:8, col off: 20, freq: 29.2571
May 2011 row 7 col 22
May 2012 row 7 col 18
Shutters, spot pico ordering for alignment[edit]
using white light and K' filter.
| Step | Open Shutter | Spot | Pico [alternate] | Comments (To be confirmed) |
|---|---|---|---|---|
| 1 | B1 | L1 | Dicroic 1 (or T3H) | |
| 2 | B1 | R2 | T2H | top spot |
| 3 | B2 | L2 | Dicroic 2 (or T3M) | top spot |
| 4 | B2 | R3 | T2M | bottom spot |
| 5 | B2 | R2 | BC1-2 | top spot |
| 6 | B3 | L3 | Dicroic 3 (or T4H) | bottom spot |
| 7 | B3 | R4 | T1L | top spot |
| 8 | B3 | R3 | BC2-3 | bottom spot |
| 9 | B4 | L4 | Dicroic 4 (T4M) | top spot |
| 10 | B4 | R1 | T2L | top spot |
| 11 | B4 | R4 | BC3-4 | top spot |
| 12 | B4 | L1 | BC6-1 | bottom spot |
| Step | Open Shutter | Spot | Pico [alternate] | Comments (To be confirmed) |
|---|---|---|---|---|
| 1 | B1 | L1 | Dicroic 1 (or T3H) | top spot |
| 2 | B1 | R2 | T2H | top spot |
| 3 | B2 | L2 | Dicroic 2 (or T3M) | top spot |
| 4 | B2 | R3 | T2M | bottom spot |
| 5 | B2 | R2 | BC1-2 | top spot |
| 6 | B3 | L3 | Dicroic 3 (or T4H) | bottom spot |
| 7 | B3 | R4 | T1L | top spot |
| 8 | B3 | R3 | BC2-3 | bottom spot |
| 9 | B4 | L4 | Dicroic 4 (T4M) | top spot |
| 10 | B4 | R5 | T1H | bottom spot |
| 11 | B4 | R4 | BC3-4 | top spot |
| 12 | B5 | L5 | Dichroic 5 | top spot |
| 13 | B5 | R6 | T1M | bottom spot |
| 14 | B5 | R5 | BC4-5 | bottom spot |
| 15 | B6 | L6 | Dichroic 6 | should be clean |
| 16 | B6 | R1 | T2L | top spot |
| 17 | B6 | R6 | BC5-6 | should be clean |
| 18 | B6 | L1 | BC6-1 | ??? |
Cheat-sheet:
Media:CHAMP.cheat-sheet.pdf
Media:CHAMP.cheat-sheet.docx
Pictures[edit]
Hardware Subsystems[edit]
Overview[edit]
Dichroic Pickoffs[edit]
We have provided 3 sets of pickoff optics for use with CHAMP (the angle-of-incidence is 3 degrees). Each is designed with a 30' wedge and have been oriented with thick part down (i.e., transmitted beams is bent downward by 13.7', which may be relevant for downstream combiners during alignment procedure). All substrates have a broadband AR coating on the back-surface and the reflected light comes primarily from the front surface.
* Short-wave Pass (SWP):
These IR-grade Fused Silica substrates are coated with a dichroic coating to reflect K' band (2-2.3 microns) and to transmit JH bands (1.1-1.8 microns).
- Media:omega_swp.pdf: Performance of Shortwave Pass Dichroic (Omega)
%BR%
* Long-wave Pass (LWP):
These Calcium Fluoride substrates are coated with a dichroic coating to reflect JH bands (1.1-1.8 microns) and to transmit K' band (2-2.3 microns and longer for possible future experiments).
- Media:lwp_performance_001.pdf: Performance of Longwave Pass Dichroic (Omega)
%BR%
* Pickoffs Beam-splitters (BS):
These Calcium Fluoride beamsplitters were rejected from American Torch due to the coating not meeting specifications and the performance curves being proven unreliable. We believe the the coatings are about 50/50 at HK bands but are more like 75/25 (mostly transmitting) at J and beyond K band. This might prove useful in the future, but we do not expect these pickoff optics to be the best choice for most observers. Here is a measured transmission curve from the company, although we have not verified the accuracy yet:
- Media:Torch_BS_performance.pdf: Performance for (rejected) Beamsplitter Coatings (American Torch)
%BR%
Piezo Scanners[edit]
Old piezos: Piezojena 8 micron
New piezos: piezosystemjena 100 microns, PZ100SG
Beamsplitters[edit]
The IR-grade Fused silica beamsplitters are 50% +/- 10% over the full JHK' bandpasses. The coatings were done by Omega Optical and you can find the coating performance here. The angle of incidence is ~11.5 degrees.
- Media:omega_bs.pdf: Beamsplitter Performance (Omega)
%BR%
Towers of Power[edit]
Image Slicers[edit]
CHAMP Dewar[edit]
Filterset[edit]
Triplet[edit]
HAWAII-1 Detector[edit]
Software[edit]
Real-time system (notes from Ettore 2010May)[edit]
Click here for detail on the upgrade to the realtime system RT_System
Interface Computer (wolverine)[edit]
Generating OPD Map[edit]
JDM: 2011Jan30
1. Acquire internal fringes using the Retro Cube A/B. See wiki page XXXX for table of pickoff mirror positions and Newport ESPGTK positions for easily acquiring fringes.
2. Take ~5 datasets (10 seconds each) of fringe data, ideally with slightly different phase offsets. As of 2011Jan30, we are using the kludge nsave=10000 which outputs a binary file called ~champdev/control/CHAMP/User/ftdata_#######.dat . This will get standardized using a fits format soon.
3. Copy datasets to wolverine for analysis: user: ~observe/CHAMP/Opdmap/Ftdata_DATE
4. run idl in ~observe/CHAMP/Opdmap
IDL> .r ftdata2idlvar.script
choose your FTDATA_DATE directory using dialog box [click on right-hand side of panel] and wait for it to finish. This may take a long while if one has recorded long sets of data. Will be much faster as FITS files.
IDL> .r opdmap_solver.script
Choose the ftdata*dat.idlvar file
the program wills how you fringes from 6 combiners. choose the one with fringes!
[Not working yet: JDM]
CHAMP control[edit]
Actuators[edit]
Realtime Computer (champ)[edit]
Camera Readout[edit]
Piezo control[edit]
Old PZT national instrument bnc cable to pico box:
A00, to left box, beam 5 A01, to middle box, beam 3 A02, to right box, beam 1
Delay line communication[edit]
Appendices[edit]
Diagrams[edit]
targets filter box diagram filterwheel key
Spares[edit]
Optics
- Two (2) fused silica beam splitters for CHAMP combiner
- One (1) fused silica short-wave pass (SWP) dichroic pickoff
- One (1) calcium fluoride long-wave page (LWP) dichroic pickoff
- One (1) elliptical mirror mounted to invar piezo mount
- Four (4) f=450mm spherical mirrors for Tower of Power
- One (1) image slicer T1
- One (1) image slicer T2
- One (1) image slicer B1 [note: we are using the spare. the original B1 has some coating problems near apex and is put back as a backup/spare
- One (1) image slicer B2 [note: the backup spare B2 has slight problem where the bottom-right quad, B2d, is too large in one dimension. This means the pyramid will not fit in the holder. If one needs to use this backup, one will need to mill-out extra clearance in the holder]
Other things: TBDocumented, some card for camera electronics. zabar motors.
- One (1) motherboard for servers (compatible with mirkwood, champ -- one kept at CHARA, one at UM)
-- Main.monnier - 08 Feb 2009
