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Size: 4903
Comment:
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Size: 5519
Comment:
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| Deletions are marked like this. | Additions are marked like this. |
| Line 41: | Line 41: |
| * Leave a record on the demod phases -- for repeating the Schnup asymmetry measurement. | |
| Line 51: | Line 52: |
| * Close the ASC loops -- mainly for the purpose of the initial alignment automation. * Refine the automation. |
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| Line 58: | Line 61: |
| * Close the ASC loops. * Refine the automation. * Check out the power build up in the carrier-locked and side-band locked conditions * Correlation measurement of p/s-pol sloshing (https://klog.icrr.u-tokyo.ac.jp/osl/?r=9333) against angular fluctuations or whatever. * Identification of any drifty suspensions as the carrier is locked -- to support the coming full lock operation. |
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| Line 62: | Line 70: |
| * Automation? | |
| Line 77: | Line 86: |
| * |
O4 Commissioning Task List
This is a list of things to do for each commissioning stage for O4.
Each stage include ASC.
References
klog review during O3 commissioining JGW-E2112729
Commissioning (IOO): Evaluation meeting JGW-G2112491
MIF Schedule Estimate for bKAGRA Phase 2 JGW-T1707079
Definitions for the X arm commissioning JGW-T1808343
Definitions for the DRMI commissioning JGW-T1909573
Preparations
- Tune f1, f2, f3 frequencies to IMC FSR
Replace all the in-vac steering mirrors and pick-off mirrors to proper ones JGW-T2112592
Replace all the beam splitters in in-air optical tables to non-polarizing beam splitters JGW-D2112956
- This is necessary to estimate the polarization content of the interferometer correctly (without too much confusion)
- Install polarization optics to backward POP or POS, and TRY and TRY.
This is necessary to estimate the arm cavity round-trip loss correctly JGW-T2011633
- Check actuation efficiencies of IMC mirrors, frequency actuation efficiencies of PSL.
- Install picomotor+PZT steering mirrors for POP green and POS green.
- Install coil driver switch for ETMs (and ITMs?).
- High power for lock acquisition, low power for low noise mode.
- Install picomotors to center the beam on oplev QPDs and ASC QPDs.
Xarm
- Measure the finesse at room temperature and at cryogenic temperatures, for both 1064 nm and 532 nm.
- Measure the round-trip loss by taking into account the effect of birefringence correctly.
- Measure the beam spot position dependence.
- Measure the amount of POP/POS p-pol when the arm is locked and unlocked.
- Measure the mode-matching for both 1064 nm and 532 nm.
- Tune the Gouy phase separation between two QPDs at REFL/AS/TRX.
- Make sure all the signals are in in-phase.
- Measure the alignment sensing matrix at REFL/AS/TRX, for ITM and ETM.
- Try closing ASC loops.
- Measure modulation depths for f1, f2 and f3.
- Check ITM and ETM actuation efficiencies.
- Make a power budget of each ISC detection port.
- Refining the automation -- mainly for the successive full ifo initial alignment.
- Leave a record on the demod phases -- for repeating the Schnup asymmetry measurement.
Yarm
- Same as Xarm.
Michelson
- Check BS actuation efficiency.
- Check out the LSC optical gain. Should be easy enough to doublecheck.
- Measure, again, the contrast defect.
- Record typical Mich length noise.
- Close the ASC loops -- mainly for the purpose of the initial alignment automation.
- Refine the automation.
Power recycling cavity
- Measure PRY length and PRX length.
- Previous methods give inconsistent results and also not compatible with Schnupp asymmetry measurements.
- Tune IMC length to PRC length (and re-tune sideband frequencies).
- Check actuation efficiency of PR mirrors.
- Measure PRC Gouy phase.
- Close the ASC loops.
- Refine the automation.
- Check out the power build up in the carrier-locked and side-band locked conditions
Correlation measurement of p/s-pol sloshing (https://klog.icrr.u-tokyo.ac.jp/osl/?r=9333) against angular fluctuations or whatever.
- Identification of any drifty suspensions as the carrier is locked -- to support the coming full lock operation.
Signal recycling cavity
- Check actuation efficiency of SR mirrors.
- Measure SRC Gouy phase.
- Automation?
Dual Recycled Michelson
- Measure power recycling gains for carrier and sidebands, with and without SRC.
- Measure length sensing matrix.
- Measure power at each ISC detection port when DRMI is locked.
- Tune the Gouy phase separation between two QPDs at POP.
- Measure the alignment sensing matrix at REFL/POP/AS.
- Try closing ASC loops.
Fabry-Perot Michelson
- Measure length sensing matrix.
- Measure power at each ISC detection port when FPMI is locked.
- Measure the alignment sensing matrix at REFL/POP/AS/TRX/TRY.
- Try closing ASC loops.
- Do some noise hunting at low frequencies and VIS commissioning with FPMI
Power Recycled Fabry-Perot Michelson
- Measure length sensing matrix.
- Measure power recycling gains for carrier and sidebands
- Measure power at each ISC detection port when PRFPMI is locked.
- Measure the alignment sensing matrix at REFL/POP/AS/TRX/TRY.
- Try closing ASC loops.
Resonant Sideband Extraction
- Measure length sensing matrix.
- Measure power recycling gains for carrier and sidebands
- Measure the cavity pole
- Measure power at each ISC detection port when PRFPMI is locked.
- Measure the alignment sensing matrix at REFL/POP/AS/TRX/TRY.
- Try closing ASC loops.