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Reports until 17:03, Thursday 26 March 2026
H1 SUS (CDS, ISC)
elenna.capote@LIGO.ORG - posted 17:03, Thursday 26 March 2026 (89659)
Mar 26 BHSS Progress: Cables fixed, alignment started

Since yesterday, we have received an answer from Ali and Keita, that the determination is that the cathode and anode pins are in the correct location. There is a longer explanation about what's going on here and which diagrams are wrong, but I will leave that to them. Therefore, the only cable work that needs to be done is to adjust the pins on our "bad" cable, and then switch the DCPD cables between OMCA and OMCB.

Morning (no cable work):

Oli and I pulled the first contact that we left from yesterday. We just need one 50/50 45 deg AOI mirror for BHSS, and we were able to completely clean two of this type. More of these mirrors will be needed for the greater BHD layout, so Oli and I need to revisit the other three that still are not clean. For now, they are stored on the flow bench in clean single cases.

We went to begin the BHSS alignment, and found that no laser beam was coming out of the fiber. Some time between this alog, when Camilla and Oli aligned the beam into the fiber, and now, the beam was misaligned again. We think one of the mirrors to the fiber coupler was bumped. Correcting this took a little while. Oli had to leave, so Keita and I continued with the alignment. Luckily, our downstream alignment is still good- with the iris alignment template placed on the BHSS, we can see the beam comes down the center of both irises to OMCA.

Most of the beam reflects off the OMC, so Keita and I started turning up the power into the fiber. At some point, we turned up to 20 mW coming out of the fiber. We could see a faint beam transmit from the input coupler and make it to the output coupler. However, we still had a hard time seeing any beam make it to the DCPDs, probably because the power is still very low. We set up a beam block of the OMC REFL path for now, since it just goes right back off the suspension. At this point, we realized it's probably not a good idea to put so much power into the fiber, so we lowered the power again to have about 2 mW coming out of the fiber.

Afternoon (cable work):

Keita and I proceeded to fix the cables. We first checked which cables went to which pins:

Cable D2300119 (for OMCB): longer is on trans PD, goes to pins 4/5, shorter on refl PD, goes to pins 1/2

Cable D2300118 (for OMCA): longer is on trans PD, goes to pins 1/2, shorter is on refl PD, goes to pins 4/5

We confirmed that this is the correct wiring according to D2200276

Keita opened up cable D2300119, as this is the cable with incorrect wiring- case was wired to pin 2 and pin 5 instead of pin 6 and 9

We confirmed that the cathode is correctly wired to pins 1 and 4, so we only needed to swap 2/6 and 5/9. 

Keita proceeded to switch the pins (this is a very short sentence to describe a long and painful process of removing various peek parts, poking pins through holes and resetting all the peek parts once finished)

Keita reclamped the lower part of the wires and we decided that we should clamp it very tight, as there were no gaps in the clamp on the other cable.

We then swapped the cables, as 118 was incorrectly placed on OMCB and 119 on OMCA. We decided to unscrew the PCB assembly on the back of each tombstone, and then swapped cables, paying attention to which cable went to trans and refl. Note: plugging the PCB assembly back into the DCPD pins is much much easier than inserting the DCPDs from the front.

We then decided to confirm the wiring was correct so we:

- checked that the case of each PD was wired to pins 6 and 9 (pass)

- checked the diode polarity was correct betweens pins1/2 and 4/5 (pass)

- checked that there were no shorts between any of the pins in the cable (failed for cable 119)

We found a short between pin 3 and 9 on cable 119. We removed the PCB assembly from the back of the DCPD tombstone and checked again, still a short. Keita then removed the lower part of the dsub9 assembly where the wires are clamped, and there was no longer a short between pin 3 and 9. We found one wire that was a bit stripped (see photo), but this was the wire for pin 4, so that didn't explain the problem. We were not able to find anything that could cause short between pin 3 and 9. We decided that maybe the pressure of the clamp caused this problem, so Keita reclamped the wires but less tightly, no more short. We checked one more time for case wiring, polarity, and shorts and all tests passed. Done!

 

Images attached to this report
LHO VE
jordan.vanosky@LIGO.ORG - posted 16:52, Thursday 26 March 2026 (89660)
HAM1 Vented and Annulus Vented

Travis, Jordan

HAM1 was vented today per M1300464 and E2300169, no pressure change in the corner during the venting. Dewpoint and particle counts collected prior to air admittance (-43C dew point).

Once the laser tables were moved away from the chamber, we vented the annulus system and all but 4 bolts were removed from both +Y and -Y doors in prep for door removal tomorrow. 

Closing WP 13123

Images attached to this report
H1 General
ryan.crouch@LIGO.ORG - posted 16:32, Thursday 26 March 2026 (89654)
OPS Thursday Day shift summary

TITLE: 03/26 Day Shift: 1430-2330 UTC (0730-1630 PST), all times posted in UTC
STATE of H1: Planned Engineering
INCOMING OPERATOR: None
SHIFT SUMMARY: HAM1 was vented and the bolts have been broken, doors should come off tomorrow. BHSS work continues, and the LVEA is now in Upgrade Laser Safe.
LOG:

Start Time System Name Location Lazer_Haz Task Time End
14:50 FAC Nellie LVEA N Tech clean 16:09
14:52 FAC Kim LVEA N Tech clean 16:09
15:07 FAC Randy LVEA N Checks around HAM1 15:35
15:54 ISC Betsy LVEA N Parts check/search 16:09
16:10 FAC Nellie MidY N Tech clean 16:52
16:11 FAC Kim MidX N Tech clean 17:28
16:28 VAC Travis LVEA N HAM1 purge air dewpoint particle checks 18:46
16:28 FAC Randy LVEA N Craning, checking out handrails 18:57
16:31 FAC Tyler LVEA N Join Randy 16:46
16:31 BHD Elenna, Oli, Keita Optics lab LOCAL BHSS work, first contacting optics Oli out 18:55 20:03
16:39 VAC Jordan LVEA N Join travis, HAM1 vent prep 18:46
16:40 FAC Mitch LVEA N Join Randy 17:25
16:52 FAC Nellie EndY N Drop off water 17:49
16:56 EE Fil LVEA N Cable termination, PSL racks 20:15
17:27 SUS Jeff LVEA N HAM3 check with CDS team 17:30
17:27 OPS Betsy, Tony LVEA N Key off SQZ laser, confirm we're in Upgrade Vent Safe, then move tables by HAM1 17:54
17:28 FAC Kim H2 N Tech clean 17:39
18:18 EE Tony, Marc VAC prep/Optics lab N Cabling 19:20
18:26 FAC Kim LVEA N Tech clean 19:16
18:37 EE Thomas Vac prep lab N Make some invac cables 23:20
18:53 FAC Tyler+contractors MidY N Inspections, dpt of health+1more... 20:23
19:43 SQZ Sheila LVEA LOCAL SQZT7 local laser hazard for Green alignment 19:59
19:58 FAC Randy LVEA N Work on BSC2 platform 21:25
20:13 SQZ Sheila, Sophie FCES Y SQZT8, LOCAL hazard 21:51
20:29 EE Marc, Tony Optics lab N Cable testing 21:17
20:49 VAC Jordan, Travis LVEA N GV7, swap regulator 21:50
21:11 EE Fil LVEA N HAM3 cable terminations Ongoing
21:19 BHD Elenna, Keita Optics lab LOCAL BHSS work Ongoing
21:39 OPS Betsy, Tony, Randy LVEA N Turn off the SQZ laser and move the Tables by HAM1, for real this time, randy out 2215 22:37
22:05 EE Marc LVEA N Join Fil in cabling Ongoing
22:08 PEM RyanC CER N Grab DM cable 22:15
22:37 VAC Jordan, Tony, Travis LVEA N Anulus ion pump, then break bolts on HAM1 Ongoing

17:00 UTC Jordan went over the VAC checklist and I confirmed the picomoters were off, the JAC PZT scan was disabled and its Driver offset was 0, and that the ISI and HEPI were in their safe states.

17:08 UTC HAM1 pressure starts to rise

17:11 UTC ISI HAM1 wd tripped

20:27 UTC Red alarm Dustmon6 by HAM6, 10.8k and 17.5k counts for the 0.3 and 0.5 um particles

21:58 UTC The SQZ laser was keyed off, The LVEA is now in Upgrade Laser Safe

22:00 UTC The tables by HAM1 were moved

23:05 UTC HAM2 ISI tripped from the HAM1 crew breaking the bolts, and the HAM1 sw watchdog

23:09 UTC RM1 and RM2 wd tripped, the HAM1 CPSs were glitching as well

23:31 UTC HEPI HAM1 watchdog tripped

H1 CDS
david.barker@LIGO.ORG - posted 10:35, Thursday 26 March 2026 (89656)
HAM1 PT100 disabled from VACSTAT for the duration of HAM1's vent

I reset a PT100 VACSTAT alarm at 10:12 and disabled HAM1.

LHO VE
david.barker@LIGO.ORG - posted 10:31, Thursday 26 March 2026 (89655)
Thu CP1 Fill

Thu Mar 26 10:11:54 2026 INFO: Fill completed in 11min 50secs

 

Images attached to this report
H1 SYS
betsy.weaver@LIGO.ORG - posted 10:16, Thursday 26 March 2026 (89653)
BSC2 Platform additional pieces installed 
On Monday, Randy, Jordan and the FAC team craned the HAM3 over into the appropriate place for HAM3 entrance for installation planned next week.  The cleanroom is now up against the BSC2 Platform.  As well, Kim and Nellie have been cleaning the HAM3 cleanroom.

On Tuesday, Randy craned into place and attached the new Installation Platform Sections G and F to the BSC2 platform.  Handrails will be installed next.  These platforms allow access from the eMod cleanroom to the BSC2 cross flow Dome cleanroom and platform, as well as provide added walking space between BSC2 and BSC3.  They also form 2 sides of the BSC3 platform which will be needed in subsequent vents.  Recall, this new LHO BSC2 Installation setup is part of the readiness review for install at https://dcc.ligo.org/E2400329-v1, and is part of a bigger plan to add sections around BSC3 and BSC1 to make a larger platform instead of moving them and encountering interferences other items like racks, trays and equipment.
Images attached to this report
H1 General
ryan.crouch@LIGO.ORG - posted 07:32, Thursday 26 March 2026 (89650)
OPS Thursday day shift start

TITLE: 03/26 Day Shift: 1430-2330 UTC (0730-1630 PST), all times posted in UTC
STATE of H1: Planned Engineering
OUTGOING OPERATOR: None
CURRENT ENVIRONMENT:
    SEI_ENV state: USEISM
    Wind: 6mph Gusts, 4mph 3min avg
    Primary useism: 0.02 μm/s
    Secondary useism: 0.55 μm/s 
QUICK SUMMARY:

LHO FMCS (AOS)
oli.patane@LIGO.ORG - posted 17:18, Wednesday 25 March 2026 (89648)
Return of the Kings

"It is a truth universally acknowledged, that a single man in possession of a good fortune, must be in want of a wife"

- Jane Austen, opening line of Pride and Prejudice

But unfortunately for both us and them, sometimes those men are winged termites in the Optics Lab.

As Elenna and I were cleaning up our work in the back optics table this afternoon, we noticed a few winged termites, and ended up finding maybe almost 10 in total walking around on the floor in the back area of the optics lab near the wall mounted cabinets between the two cleanrooms. We got rid of them but couldn't find where they had come from. I'm wondering if they're maybe coming from an opening under one of those cabinets? Last year this happened but those came out from under the flow benches along the wall - not sure if this is part of that same colony that survived or a different colony.

Images attached to this report
H1 SUS (CDS, ISC)
elenna.capote@LIGO.ORG - posted 17:07, Wednesday 25 March 2026 (89649)
Mar 25 BHSS Progress

To summarize the ongoing issues from yesterday:

Keita and I have decided that swapping cables can possibly be done without removing the DCPDs. We're going to determine OMC A and OMC B based off of the PZT cable, and then swap the DCPD cables. We're waiting to hear the final verdict on the diode polarity to do pin adjustments and cable swapping.

In the meantime, Oli and I installed OMCB on the suspension and bolted it down using the OMC alignment template. We have placed the butterdishes over OMCA and B, but we haven't secured them yet with viton clamps while we continue to do work on the OMCs. The cables are only loosely clamped.

Next, Oli and I worked first contacting the remaining optics for BHSS- two HRs and one 50/50 splitter. The HRs were finished today, installed in their mounts, and placed randomly on the platform. The 50/50 splitter is still being FCed and should be ready in the morning. Once that optic is installed, we will proceed with the alignment of the OMCs and optics.

One vertical clamp is still missing from OMCB, but we should be able to install it once the helicoils and such arrive.

H1 SQZ
camilla.compton@LIGO.ORG - posted 16:40, Wednesday 25 March 2026 - last comment - 16:55, Thursday 26 March 2026(89645)
SQZ into IFO, Vented alignment not making it to HAM6 or SQZT7.

Sheila, Camilla.

We decided to pause on looking for the FC alignment and look at SQZ alignment into the IFO. To check our irises and possibly look for scattering shelves. 

Locked SEED_DITHER with 75mW into fiber. Moved ZM3 to get OPO_IR PD up to max 0.9mW. Opened BeamDiv and after aligning SRM, mis-aligning SR2, could see beams on AS_A,B and C. AS_A and B had a similar size ~60 to reported before (e.g. 86965), but there was less power on AS_C: 4e-4 rather than the previous 7e-4.

We used Ryan's DRMI time from 89573 to put OM1, OM2 and SRM back. The with the SQZ SEED injected, we tried to use SQZ centering loops to center on AS_A and AS_B, this didn't work quite as expected. ZM4 kept saturating although these loops had worked Janaury 19th, before moves were done on the VOPO to help with clipping e.g. 88966.

Then went back to alignment on Jan 31st with 88976 with ZM1,2,3, 4,5,6 FC1. And took OM1,2,SRM to the January 19th positions. However here we saw no light on SQZT7 OPO IR PD, HAM7 WFs or in HAM6 on the AS_A,B,C diodes. This was done at 23:10 UTC. Comparisons of osems attached. The sliders to get these osems values are fairly different, see attached, so I also tried going to these slider values, that gave me some light on SQZT7 IR PD, HAM7 WFS and FCES with SEED injected, see attached. HAM6 AS diodes saw nothing. 

Images attached to this report
Comments related to this report
camilla.compton@LIGO.ORG - 10:58, Thursday 26 March 2026 (89657)
Link

Sophie, Camilla

This morning, starting from this vented slider alignments, I randomly moved ZM1 until we had IR and green light on the FCES PDs. I misaligned FC1 and FC2 to single pass light. Then I could move ZM3 in pitch from P,Y (-324,-200) to (-506, -200) to get max light on IR FCES  PD. In both these positions, we get scattered light on the camera and light on both IR and green PDs. This makes me think the best position in pit h is in the middle of these, ZM3 (-415, 200). We tried to repeat this excise in yaw but only could get the one edge. Even after movingZM1 in YAW in both directions, I couldn't find the other side of the yaw clipped beam. Attached is the sliders when we thought we were centered in pitches and clipping the coating on one side in yaw. 

Images attached to this comment
sheila.dwyer@LIGO.ORG - 16:55, Thursday 26 March 2026 (89658)
Link

We need 4 things for the squeezer to operate:

  • Filter cavity green sensing (FCGS) reaching SQZT7
  • IR reflected off filter cavity making it back through VIP without clipping (IR on SQZT7)
  • IR flashes in filter cavity
  • Green flashes in filter cavity

Continuing from where Sophie and Camilla left off, I confirmed that the green I see on the FCES green camera is a single pass beam by misaligning both FC1 and FC2, they do not move this beam, and also confirmed that it's green by toggling the fiber input.  I moved ZM3 to bring this to center on the camera, as we have not disturbed this FCES green path since O4.  Then I did a raster on FC1 to get the IR seed reflected onto the SQZT7 IR PD (screenshot).  

After moving FC2, I could see some green and IR on the FCES cameras.  For IR, this is not the single pass beam but some reflections off FC1, for green we still see the single pass beam and a second beam coming close to the single pass beam, but it seems to have a very different beam size.  screenshot.  After this I went to SQZT7 and saw that the FCGS refl beam is making it to the table and aligned it onto the diode.  Now we have 2.5 of the 4 things we need for the squeezer to work: green on SQZT7, IR on SQZT7, and the green single pass is heading towards FC2 well, which is part of what we need to get green flashes.  

Sophie and I went to FCES.  We tried moving FC2 to see what happened on the green transmission, we can see the beam reflected off FC2 leaks around the edge of the FC2 coating for some alignments, but that we can overlap them for some alignments, but do not see cavity flashes. 

Camilla moved ZM3 back to the alignment where she found the green centered between the two places where it goes over the edge of the coating.  This was a simlar situation in green.  

In IR, we did see a single pass beam on the camera when Camilla steered ZM3.  I will photo descriptions in the morning.   

Images attached to this comment
H1 General
ryan.crouch@LIGO.ORG - posted 16:30, Wednesday 25 March 2026 (89639)
OPS Wednesday Day shift summary

TITLE: 03/25 Day Shift: 1430-2330 UTC (0730-1630 PST), all times posted in UTC
STATE of H1: Planned Engineering
INCOMING OPERATOR: None
SHIFT SUMMARY: GV7 is still broken and will not hard close, HAM1 vent prep work, the PSL incursion was completed, and the BHSS work continues in the Optics lab.
LOG:

Start Time System Name Location Lazer_Haz Task Time End
14:15 FAC Kim, Nellie LVEA N Tech clean 14:54
15:05 VAC Gerardo, Jordan LVEA HAM1 N Open ION pump 15:09
15:08 FAC Randy LVEA WBay N Craning Test stand, *not over the tube* 16:12
15:19 SEI Jeff Optics lab LOCAL Turn off laser 15:27
15:28 SEI Camilla, Jeff Optics lab N Parts search / checks Camilla out 15:45 15:48
15:35 SEI Jeff, Camilla LVEA N Grab power meter 15:45
16:02 TCS Sophie Prep lab N CHETA work 16:19
16:08 EE Marc, Fil LVEA H1,2 N Cabling fiber, SUS to SAFE 18:58
16:19   Betsy CER/Clean storage, Optics lab N Put away garb and other stuff 16:37
16:20 BHD Elenna, Keita Optics lab N BHD/BHSS work 17:26
16:22 SQZ Camilla LVEA, SQZT7 LOCAL/HEIGHT SQZT7 table alignment, bringing glasses for Fil, Marc 16:33
16:33 PSL/SPI Jeff, Jason, Sina PSL, Racks, PSL encl N / LOCAL SPI fiber work, Jason out 18:30 18:46
16:39 FAC Kim LVEA N Tech clean 18:09
16:46 FAC Randy LVEA WBay N Test stand work 17:39
16:48 ISC Ibrahim CER/ Clean storage N Inventory C3 covers 19:21
16:48 SQZ Camilla, Sheila LVEA LOCAL SQZT7 work, LOCAL and HEIGHT LASER HAZARD 17:04
16:59 ISC Jenne LVEA N Talk to Camilla/Sheila 17:02
17:06 BHD Oli Optics lab N BHD/BHSS work 17:40
17:17 ISC Jennie Optics lab ->LVEA N Check for parts, put away in LVEA 17:35
18:23 SPI Bram LVEA N Check with Jeff out with Jeff 19:11
18:35 VAC Travis Site N VAC property inventory 21:53
18:37 VAC Gerardo LVEA N Turn on purge air for HAM1 19:13
18:39 OPS Betsy, Tony LVEA N Double checking LASER SAFE status 19:11
19:17 OPS Tony LVEA N Grab paper and table keys 19:22
19:29 FAC Randy, Jim LVEA N Turn on HAM1 CR and work on the test stand Jim out 20:20 20:27
19:34 ICS Camilla, Calum Optics lab N Check on parts 19:52
20:09 SEI Jeff, Bram, Sina Optics lab LOCAL SPI work Ongoing
20:18 TCS Sophie Prep lab N CHETA work 21:03
20:21 SUS Oli LVEA N Take picture of a rack 20:25
20:32 BHD Elenna Optics lab LOCAL BHSS work Ongoing
20:34 PEM RyanC CER N Swap dm comms cables 20:41
20:37 SUS Oli Optics Lab LOCAL Working BHSS system Ongoing
20:40 SQZ Sheila SQZT7 N Checking for people working at height to transition. 21:02
20:41 EE Fill CER n Grounding cables Ongoing
20:51 VAC Gerardo LVEA N Take off turbopump 21:02
21:01 EE Betsy, Marc, Tony Vac Prep N Cable testing Ongoing
21:49 OPS Ibrahim CER / Clean storage N C3 cloth covers checks 22:18
22:35   Calum Vac Prep lab N Talk to Betsy 23:20
22:58 VAC Jordan LVEA N Grab parts by HAM1 23:03
H1 SUS (AOS, SPI)
jeffrey.kissel@LIGO.ORG - posted 13:02, Wednesday 25 March 2026 - last comment - 13:33, Wednesday 25 March 2026(89643)
PR3 Oplev Whitening Chassis Moved up in SUS-R2 
J. Kissel, M. Pirello

While in SUS-R2 and thinking SPI, and looking at the proposed rack layout from G2401479, and accounting for all the SUS (BBSS, LO1, LO2) that's incoming for O5 -- I found that SPI can have a bit more space if we just move the SUS-PR3 optical lever whitening chassis up 5 U-heights from "32" to "27." I put the u-height in quotes because this is an old style rack with the u-heights labeled from top down, rather than the bottom up per industry convention. I would have and could have gone higher, but the 27 slot already had mounting clips in it, so I went there. We can go as high as "25" if need be in the future.

Pics of before vs. after are attached.
Images attached to this report
Comments related to this report
oli.patane@LIGO.ORG - 13:33, Wednesday 25 March 2026 (89644)
Link

Adding more photos showing the whole rack so I can accurately update the cable wiring diagram

Images attached to this comment
H1 SPI (CDS, PSL)
jeffrey.kissel@LIGO.ORG - posted 12:56, Wednesday 25 March 2026 (89642)
SPI Fiber Patch Cable from PSL to SUS-R2 Installed; Verified Excellent Transmission 
F. Clara, J. Kissel, S. Koehlenbeck, J. Oberling, M. Pirello
D2400110

Today we picked up where we left off with the install of SPI into H1. 
Where we last left things, we'd installed a new SPI pick-off of ALS/SQZ beam in Apr 2025 (see ECR E2400083 and results in LHO aLOGs 83989, 83996, 83978). Back then, we had ended the work with the input to the fiber collimator within the PSL dumped.

With Jason and Sina in the PSL, we confirmed that the SPI path was still blocked. 

However, we also realized/remembered/confirmed that the entire ALS/SQZ/SPI path had 25% less power -- We've been running the PSL at lower power allocation downstream of the PMC since Sep 2025 to prevent issues we'd found with the currently installed EOM after a power outage triggered a dust monitor to spew out dust into the PSL (see that saga in e.g. LHO:87109 LHO:86966). They found the power at the SPI pick-off was 140 [mW] instead of the 188 [mW] we left in Apr 2025 (see LHO:83996).

(Using labels in the half-up-to-date drawing D1300348)
Jason and Sina rotated ALS-HWP2 upstream of ALSPBS01 to restore the nominal 50 [mW] into the ALS/SQZ pick-off and ~200 [mW] (190 [mW] measured). This means there's ~50 [mW] less out to ALS / ISCT1 than before today.

Then with the SPI pickoff still dumped, we installed a 30 [m] patch cord*** from the PSL optical table, out the mouse hole between the +X wall of the PSL enclosure and HAM1, then up running along the upper racks to waterfall down at SUS-H2. The fiber sits within the typical orange tubing. Per D2400110, this is SPI_PSL_001, and it's labeled as such on both ends.

After install, I connected the SUS-R2 end to a Thorlabs S121C power meter with S120-APC2 fiber adapter. 
With this installed (making the system laser safe at SUS-R2 end), Jason/Sina unblocked the SPI pickoff input. 
With 190 [mW] in, we measure 187 [mW] out on the other end. 98% transmission, pretty excellent. Almost unbelievably excellent but we weren't rigorous with our uncertainty and systematics.

Happy with this result, we then blocked the SPI path again, and re-capped the SUS-R2 end for final dressing in the racks.
We'll unblock again when we're read to connect it to the Laser Prep Chassis.

***Patch cord details:
Manufacturer DIAMOND
DIAMOND Part Number: ENS/1094388
Customer Part Number: 9711228
Patchcord SM L=30 PM
2xFC 2mm APC (i.e. 2mm narrow key FC/APC on both ends)
tran 6,6/125/245 PAND 980nm
H1 CDS (ISC, SPI, SUS)
filiberto.clara@LIGO.ORG - posted 12:49, Wednesday 25 March 2026 (89641)
SPI and JAC Cable Work

WP 13105
WP 13113

During the last two days CDS EE has completed the following:

  1. SPI Optical Fiber pulled from the PSL enclosure to SUS-R2
  2. Heliax cable pulled from ISC-C3 to SUS-R2, part of SPI
  3. Two Heliax cables pulled from ISC-C4 to ISC-R2, part of JAC
  4. Cabling disconnected to IOT1 and ISCT1

This completes dirty work over HAM1 and HAM2. In the next two weeks, will close out work in SUS-R2 before HAM3 is vented.

List of items needed for SUS-R2:

  1. Install power supplies in CER Mezzanine
  2. Terminate power cables and install junction box
  3. Terminate Heliax cable
  4. Test and install two SAT Amp Chassis
  5. Installation of DC sequencer
  6. Install QOSEM Sat Amp
  7. Pull cabling from SUS-R2 to HAM3
  8. Installation of SPI electronics

F. Clara, J. Kissel, J. Oberling, M. Pirello, T. Sanchez, and R. Thompson

H1 ISC (SUS)
oli.patane@LIGO.ORG - posted 10:17, Tuesday 24 March 2026 - last comment - 08:46, Thursday 26 March 2026(89615)
BHSS / BHD work Mar 23: OMCB almost done, OMCA ready for alignment!

Elenna, Oli

Summary: OMCB has its DCPDs installed and most of its stoppers (barring one that needs to be retapped + helicoiled). OMCA has been aligned according to the OMCA / OMCB install template and is ready for laser alignment. Cabling for both OMCs should be good to go.

After last week's issue of the OMCB DCPD A (TRANS) missing a diode hole (89583), we were able to clear up the issue and fix it (89606). Elenna then installed the DCPD B (REFL) diode. Note that once again there were tiny metal shavings below where the DCPD's were installed, which we picked up with a qtip that we wet with iso. Once we had both installed (pic), we installed the rest of the stoppers around OMCB. The only one we didn't install is one of the vertical stops. This is because there was an issue with the helicoil last week, and we ended up having to remove it. We think this might be due to an issue with the threads, so we are waiting on a 3/8"-24 tap to retap the hole before installing a new helicoil. Because we don't have this stop yet, it doesn't really make sense to fasten on the butter dish, but we might just sit it on today to hinder dust accumulation.

We also realized that the PZT cables were going to be way too short to reach the cable pylons for both OMCA and OMCB, so we very carefully opened the peak cable wraps on the OMCs and took out what we think should be enough. On OMCB we noticed that the little copper wrap for one of the PZTs was not right above the PZT as it should be, but instead was on the other side of the peak cable wrap and was only wrapped loosly around one of the cables. Because of this we just removed the wrap. The cables right above the PZT are looking fine and don't look like they need anything to hold them together.

I had been confused about the OMCA / OMCB install template for the past few days, since installing it was putting OMCB further back in its slot than OMCA, but I was able to confirm yesterday in eDrawings that OMCB is actually supposed to be an extra 1 mm away from the front of its slot as compared to OMCA, so we moved OMCA into position and bolted it down.

I also went in and installed the magnet mounts for the OSEM magnets (without the magnets), as well as the big mass on the back of the BHSS.

 

Installed serial numbers:

OMCB (SN 105)

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Comments related to this report
corey.gray@LIGO.ORG - 08:46, Thursday 26 March 2026 (89652)EPO
Link

Tagging For EPO photos.

H1 SEI (SEI)
anthony.sanchez@LIGO.ORG - posted 11:17, Monday 23 March 2026 - last comment - 16:40, Wednesday 25 March 2026(89599)
Hepi Pump Trends (Monthly)

Hepi Pump Trends (Monthly) Famis 39954:
 

On Jan 26th the HPI-PUMP_EX_PRESS1_PSI started rising in maximum pressure. and on  maybe feb 2nd it started getting worse. Seems like it has plateau-ed on Feb 16th, but the Pressure still remains elevated.

That channel back in Oct was between 92.4-92.6 PSI. 
And now it's between 91.9 - 93.5 PSI. I'm not sure if this is out of bounds for HEPI.

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Comments related to this report
jim.warner@LIGO.ORG - 16:35, Wednesday 25 March 2026 (89646)
Link

I have looked at the EX pressures a bit and I suspect that one of the pressure sensors on the EX manifold has gone bad.

On the attached trend, the top 2 traces are PRESS1 and PRESS2, bottom 2 traces are the same pressures at EY. EX PRESS1 starts seeing bigger peak to peak signal starting about 50 days ago, but PRESS2 doesn't see this increase in pressure noise. Second attach image is a zoomed in trend of the same channels. EX PRESS1 seems to have some kind of 1hz oscillation. PRESS2 might be seeing some of this same signal, but not to the same extent. The supply pressure to the VEA at EX definitely doesn't see this 1hz signal, so I think it's either not real or it's being filtered out at the manifold.

I have yet to go down to EX and test this, but I will try to do so this week.

Images attached to this comment
jim.warner@LIGO.ORG - 16:40, Wednesday 25 March 2026 (89647)
Link

FRS ticket: https://services1.ligo-la.caltech.edu/FRS/show_bug.cgi?id=37356

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