Differences between revisions 3 and 16 (spanning 13 versions)

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
Summary of Optical Characterization
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.

KAGRA/Subgroups/MIF/O4CommissioningTaskList (last edited 2021-07-07 09:31:56 by YutaMichimura)

-  ⇤ ← Revision 3 as of 2021-06-15 09:27:41 → 
  Size: 1162
  Editor: YutaMichimura
  Comment:
+   ← Revision 16 as of 2021-06-15 18:05:08 → ⇥
  Size: 5519
  Editor: KiwamuIzumi
  Comment:
-Deletions are marked like this.
+Additions are marked like this.
 Line 6:
-== References ==
+=== References ===
 Line 8:
+ * [[KAGRA/Subgroups/MIF/OpticalCharacterization|Summary of Optical Characterization]]
 * Commissioning (IOO): Evaluation meeting [[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=12491|JGW-G2112491]]
 * MIF Schedule Estimate for bKAGRA Phase 2 [[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=7079|JGW-T1707079]]
 * Definitions for the X arm commissioning [[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=8343|JGW-T1808343]]
 * Definitions for the DRMI commissioning [[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=9573|JGW-T1909573]]
-Line 16:
+Line 21:
+ * 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.
-Line 18:
+Line 28:
+ * 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.
-Line 20:
+Line 45:
+ * Same as Xarm.
-Line 22:
+Line 48:
+ * 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.
-Line 23:
+Line 55:
-== FPMI ==
+== 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.
-Line 25:
+Line 67:
-== PRFPMI ==
+== 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.