ISC Meeting on 2016/11/14 14:00 - 15:00

Participants: Michimura, Enomoto, Arai, Aso, Inoue

Next meeting

2016/12/12 14:00 - 15:00 (11/28 is skipped because of IMC ASC work)

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Minutes

PR3 accident [Aso]
- PR3 mirror was damaged during disassembly work, cannot be used as one of PRC mirrors anymore
- SR3 will be used for PR3, damaged PR3 will be used as SR3 for beam reducing for the moment
- but we need new SR3 by bKAGRA Phase 2
bKAGRA Phase 1 analog electronics [Michimura]
- RF Distribution Amplifier
  - ones used for IMC ASC is currently being assembled by Niigata students
- RF Amplifier Interface + Low Noise Power modification [Kamiizumi]
  - MIF group agreed on modification
  - LIGO has relay version for power board (LIGO-D0900848), but we don't have enough space for the relay; also, relay version had oscillation issue in aLIGO (reported by Arai)
  - we might want to remove D9, D10, D11, D12 in LowNoisePower_forRF_M.pdf, but we will keep the diagram as is
    - see, also LIGO-E1400445; LIGO removed these diodes for some chassis
  - AEL group is considering of making a patch box for +-17V with +-24V DC power supply issue
Output optical tables OutputTables wiki [Michimura]
- waiting for SEO to approve budget migration
- EXT/EYT tables
  - table height fixed; they will be put on mortar surface
  - isolation floor cutting and mortar application plan sent to Mirapro
- POS and AS tables
  - table height fixed; POS will be on concrete furface, AS will be on mortar surface

Agenda

PR3 accident [Aso]
bKAGRA Phase 1 optical configuration study [Michimura]
- summary: JGW-T1605595
- ASC [Enomoto]
  - noise study by NoiseBudget [Enomoto]
    - Enomoto volunteered to do ASC NoiseBudget; meeting on Sept 27
      - trouble on number of licenses and library links, but finally able to run example model
  - effect on WFS from RF HOMs [who?]
- check if reference spheres for PR mirrors are available at Caltech [Hirose]
  - 9.0m (CC), 11.5m (CC), 6.5m (CC), 5.0m (CC), 34m (CX), 36m (CX) were available
  - PR2/SR2 is -3.0764m/-2.9872m and PR3/SR3 is 24.9165m. Maybe 5.0m TS can be used for PR2/SR2.
  - what about PR3/SR3, PRM/SRM?
- check if IMC length stability and others are compatible with 3-km PRMI [Michimura]
bKAGRA Phase 1 initial alignment / commissioning plan [Michimura]: JGW-T1605595
- procedure summarized in JGW-T1605692
  - presented at Chief Meeting on Sept 26
  - TMS BRT alignment could be tough because of dim transmitted beam after ETM installation
    - use green?
  - check optical layout [Michimura->Aso]
- check if ETM transmitted beam can go through when ETM is not installed [Michimura]
  - ETM transmitted beam can reach EXT/EYT when no wedge (5.6 mm shifted from the center of EXT/EYT)
  - EXT/EYT tanks/ducts are installed considering ETM wedge effect
- wide/narrow angle baffles for Phase 1? [Akutsu]
  - talk with Uchiyama & Saito on Sept 27-28?
    - as for NAB: install if possible, but maybe without suspension
    - as for WAB: try WAB with suspension at EXC, maybe no installaton at EYC
    - first priority is cryopayloads and evacuation/cool-down
- camera to see ETM HR surface [Akutsu, Inoue, Kokeyama]
  - CAL report (JGW-G1605737)
  - wide angle baffle modification is needed to see the ETM edge
- how to extract AS beam should be fixed by MIF
  - extract SR2 reflected beam at SR3 chamber
- IMMT1-IMMT2 beam collimation plan not yet [MIF]
- green alignment plan not yet [MIF]
- TMS possible without ITM? [Akutsu->Michimura]
  - check q-parameter at TMS witouht ITM
bKAGRA Phase 1 analog electronics (Analog Electronics for ISC) [Michimura]
- Quad IQ Demodulator heat-up issue
  - 1st stage amp is heating up
  - we have to decide if we need 1st stage amp or not
- remake of Quad IQ Demodulator LSC to ASC [Michimura->Niigata students?; by 2016.10]
  - MIF will take care instead of AEL
  - mass production will be taken care by AEL
  - 4-way splitter (Mini-Circuits ZFSC-4-1-S+) arrived at Kamioka -> Mozumi office loft
- RF Distribution Amplifier [Michimura->Niigata students?; by 2016.10]
  - we will omit RF monitor for now, and add them later
  - Nakano found front/rear panels -> Mozumi office loft
  - ordered RF amp (Wenzel LNBA-11-23-CK-100-15) -> all arrived (Mozumi office loft)
  - 8-way splitter (Mini-Circuits ZCSC-8-1+), coupler (Mini-Circuits ZX30-20-4) arrived at Kamioka -> Mozumi office loft
  - cables and connectors to assemble one chassis by hand arrived at Kamioka -> Kokeyama's desk
  - basically copy of LIGO-D1000124, but we will omit Interface for the first stage
  - asked AEL to make RF amplifier interface board (which is also used for Frequency Doubler) [Michimura]
- RF Patch Panel modification [Michimura->Niigata students?]
  - one by one by hand is tough; outsource?
- RF Amplifier Interface + Low Noise Power modification [Kamiizumi]
  - LowNoisePower_forRF_M.pdf Is this acceptable?
    - could oscillate depending on pattern; check it definitely [from Arai via email]
  - see, also, LIGO-D1000064 and LIGO-D0901846
  - talk with Miyakawa on Nov 7, talk with Kamiizumi on Nov 14(-16)
    - added switches for DC power, removed two RF detectors, and merge RF Amplifier Interface and Low Noise Power into 1 board
RF PDs and RF QPDs
- RF PD / RF QPD noise and transimpedance characterization [NiigataU?]
  - need to check RF QPDs for IMC WFS, by the end of Oct 2016
  - IR LED is at Kamioka, no network analyzer at Kamioka (one at Toyama U and the other at Kashiwa)
- RF PD modification [who?]
  - fix DC path
  - solve single supply issue (RF PDs easily break when accidentally supplied with single)
  - fix plugs so that Dsub 9pin cable fixes better
Output optical tables [Michimura] (OutputTables wiki)
- vacuum optics to extract beams for each port (except for REFL and AS DC) and related beam shutters will also be MIF task
- MIF and IOO agreed, SEO agreed, next step is budget migration
  - budget estimation done on Oct 25 [Kawamura,Michimura]
- EXT/EYT tables
  - table and oplev pylon footprints sent to Mirapro [Akutsu]
  - check table height (mortar thickness) and fix the schedule [Michimura]
    - meeting with Saito, Uchiyama on Nov 14
      - put tables on mortar surface, with isolation cutting (Mirapro will check the possibility)
      - it is better to bring tables with EXT/EYT chambers in around Jan 2017
- POS and AS tables
  - table height fixed: OutputTables wiki
Arm Length Stabilization plan (JGW-T1605353)
- NoiseBudget [Kambara]
  - results agreed with Tatsumi Simulink model
  - include fiber noise (fiber setup is different from Tatsumi model)
    - fiber length? how to do the wiring?
    - ask LIGO people how they are fixing the cables
      - no special vibration / heat treatment [from Kawabe]
  - include phase noise from mirror vibration for IR beat setup (it is one of the limiting noise source for aLIGO)
  - schedule and plan for the procurement of circuits should be fixed soon
    - keep in touch with AEL group
  - local oscillator phase noise (calculation method)
    - discuss with Aso and redo calculation
Magnetic noise, actuator noise calculation for cryogenic payload
- magnetic noise JGW-T1504459 [Shimoda]
- actuator noise and range calculation on going [Miyamoto(JGW-G1605746), Okutomi]
  - TM actuator efficiency should be less than 1.5 mN/A from noise point of view
  - if 1.5 mN/A, RMS velocity should be smallter than 0.04 um/sec
    - simulation on-going [Okutomi]

Requirement on actuator range for IMMT [Ohishi]
- magnet size: 2 mm dia, 5 mm long
- coil turns: 39?
- this gives 4 times larger efficiency than the IMC coil efficiency
- IMMT resonant frequencies: pitch ~1.8 Hz, yaw ~1.5 Hz
- this gives 50/sqrt(2) mm * (1.4e-3 N/A * 4) * 4 magnets * 1/80 A/V / 9.6e-4 kg*m²　 / (2*pi*1.8 Hz)² = 8e-5 rad/V efficiency in pitch
- is this enough?
  - IMC mirror (Type-C + stack) drift in yaw was less than 1 mrad/month, pitch was much less [Nakano]
  - iKAGRA ETM (Type-C w/o stack) drift was ???
RF generation scheme [Michimura]
- f1 = 3/8*f2, f3 = 10/8*f2
- we need 2*f1, 2*f2, f3-f1, f3-f2 as well
- use harmonics generator (x2, x3, x6, x8, x10, x16 for f2/8 = 5.62698725 MHz (FSR for IMC))
  - seeking for vendors
- MIF and IOO agreed to use 13.78 MHz　(~= f2/8*2.45) for IMC sideband (JGW-T1605493)
- MIF agreed to use 32 MHz and 33 MHz for ALS sidebands JGW-T1605626
- may be IMC sideband (and ALS sidebands) should also needs to be phase locked with f1/f2/f3 to avoid "whistling noise"
bKAGRA optical layout around PRC
- POY clipping issue will be solved by modifying PR3 optical bench suspension [Shoda]
- we need layout CAD for POY pickoff mirror, POP pickoff mirror to design baffles
  - budget for baffles around POY and POP were shifted to next FY [SEO]
Requirement for the noise of watchdogs for coil drivers [Aso]
- recent result show dR < 1e-7 Ohm/rtHz, so it may meet the requirement
- slow (~20 min) drift at dR ~ 5e-4 Ohm -> this should be negligible
viewport quality for GV between SRM and OMMT [Akutsu]
- aLIGO case: SRM-OFI-viewport, KAGRA case: SRM-viewport-OMMT-OFI
- aLIGO viewport is always closed
- if we need super quality viewport, we have to decide soon
BS baffle could make contract defect? (LIGO-T1000090)
- ask Akutsu and Hiro
- BS has 370 mm dia and beam at BS is 2*36 mm dia. So, it should be in principle OK. But recoil mass aperture should be considered.
bKAGRA ISC cabling [Michimura/Doi]
- announced to IOO mailing list
- need to update the cabling diagram
Mirror absorption measurement status [Hirose]
Output optics status [Somiya]
- suspensions for OMMT1/2 is same as IMMT1/2 (driver list for now: JGW-L1605334)
- we have to make vacuum compatible PD/QPD for OMC by 2018.3
- beam shutter: prototype done, AR coating and driver circuit design not yet
- OMC suspension is TMS-like plate spring and single pendulum [Somiya]
Task list update (TaskList) [Michimura]

KAGRA/subgroup/ifo/MIF/Minutes20161114 (last edited 2016-11-14 15:40:18 by YutaMichimura)