TITLE: 06/26 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: MAINTENANCE
    Wind: 17mph Gusts, 12mph 3min avg
    Primary useism: 0.02 μm/s
    Secondary useism: 0.08 μm/s 
QUICK SUMMARY:

• Cooler, breezy & cloudy morning; there was a M6.5 EQ a few hours ago in Philippines.  DetChar meeting formally ended yesterday (so not leaving kitchen door unlocked).
• Due to RDO Fri, SQZ work may be a primary activity for the day.  There is a plan to run measurements with the purge air turned off today (which would mean NO in-chamber work). 
• Local laser hazard in East Bay continues for SQZ HAM7 work (rest of LVEA is laser SAFE except for at height).  
• CPS work continues (I know this because Verbal Alarms is overtaken by the "HAM3 CPS Glitch" every few seconds.) 
• Assume BSC2 HEPI actuator work is also ongoing into next week
• HAM3 Baffling is also still ongoing (baffles in-chamber, but still need final positioning, when allowed--BBSS prevented this Thurs).
• Other ongoing work:  CRS, SPI, EX electrical ground studies, B&K work in-chamber work, and possibly close-out  & seal-up chambers next week(?)

(Jordan, Owen, Jake, Gerardo)

The annulus sytem for HAM1 and HAM2, shared volume, was pumped down initially with a single aux cart (Hi cube), then to speed thing up a second aux cart (another Hi cube) was added via the HAM2 AIP port.  After a couple of days the ion pump controllers appears to be able to keep up with the pressure, see attached trend plot.

(Jordan, Owen, Jake, Gerardo)

The cryotrap cooldown continues, we continue to pump on the cryotrap volume with a turbo pump, the turbo is backed with a SS500 aux cart.

Small changes were the removal of the calibrated leak from the RGA tree, along with the removal of other components in preparation to install an incoming small ion pump next week.

Current pressure in the cryotrap volume is 7.38X10^-10 Torr.

Shoshana, Jim, Arnaud

The x6 HAM3 new CPS boards have been set to the following configuration (as per E2200455): 

• Chassis ungrounded from PCB (P3 jumper removed) - To avoid ground loops (see p33 of the user manual)
• All boards set to slave (P26,27,28 jumpers removed) - This is because the LHO CPS are linked to an external timing chassis and don't need a master board (as per Jim)
• Phase set to 0 (P2 jumper on) - This setting is because the targets are now independant from each other (see point #1 in page 27 of the user manual)

There was some glitching noticed on the channels that were in range prior to this work, which was fixed after this setting change (see attached). Two of the cards were set to Master before and Jim is confident this would have created problems. 

Left to do : 

1- Label the cards at the front of the boards with module SN and corner #
2- Disconnect the grounding to the chamber of the crate on the +Y side 
3- Label the in-air lemo cables with H1, V1, H2 ...
4- Update ICS with the new boards SN
5- Gather the cards that were removed from WHAM3 to send back to microsense for recalibration with a new set of sensors (RMA)

The tracking spreadsheet for this ECR was updated here: E2500184 

(Jordan, Gerardo)

We inspected the 5 viewports on the west door of HAM2.

We found on viewport A1F4 the typical smudge or print left by first contact the print appears to be on the inside, but not the vacuum side (this VP has two windwos).  We also noted a scratch on the outside window (not under vacuum), around 1 O'clock and about 3/4" away from the edge, we contacted Keita who was walking by the area and we asked him if the location of the smude/scratch were on the path of beam, no they are not.  BTW, VP4 is a high quality wedged viewport, a double window, type D1101714.

Then on A1F2 ZV-800 viewport we noted some scratches, something was dancing on the window, since it appears as a single scratch with multiple turns.  This viewport was removed and replaced with a spare ZV-800 type.  SN of new unit is 0098, old scratched and full of particulate viewport serial number 63.

All other viewports nothing to report, A1F1, A1F3, A1F5.

Arnaud, Marie, Jeff, Oli

Compared to the BSFM, the cross coupling in the BBSS from P to Y is mught higher (This plot shows ~ 2 orders of magnitude, but I don't want to confirm that yet since the data fudge for the BSFM might be incorrect).

I made a comparison of the last few BBSS P to Y measurements and compared them to an old BSFM P to Y measurement.

We found that the P to Y cross coupling looks a lot like just Y to Y (bright blue), so there is much more Y than there should be.

There is still some more work to be done to absolutely confirm this, but current in progress results can be found in /ligo/svncommon/SusSVN/sus/trunk/BBSS/Common/Results/comparetripleparams/2026-06-25_BBSSvsBSFM, r13050.

Took some BBSS transfer functions yesterday afternoon after we touched a bunch of stuff as another check that everything is still looking good. Everything is still looking good.

Settings
CD state 1
DAMP OFF
OPTICALIGN OFF

Data
/ligo/svncommon/SusSVN/sus/trunk/BBSS/H1/BS/SAGM1/Data/2026-06-25_0000_tfs/2026-06-25_0000_H1SUSBS_M1_WhiteNoise_{L,T,V,R,P,Y}_0p02to50Hz.xml
r13045

Results
/ligo/svncommon/SusSVN/sus/trunk/BBSS/H1/BS/SAGM1/Results/2026-06-25_0000_tfs/2026-06-25_0000_H1SUSBS_M1_ALL_TFs.pdf
r13049

Ibrahim, Oli

Today we re-centered M2 BOSEMs and M3 AOSEMs following BBSS alignment work.

These were centered with OpticAlign Offsets of P = 107, Y = 441. These are thought to be a "good" alignment.

We also replaced AOSEM 771, which had bad counts (14k OLG) with AOSEM 770 (high counts at 25.5k - at open light 22.2k - the OLG would change in-chamber depending on whether it's backed out or in my hand).

Then, we also re-attached the LL AOSEM - see picture of cabling - we will likely redo all cabling.

TITLE: 06/25 Day Shift: 1430-2330 UTC (0730-1630 PST), all times posted in UTC
STATE of H1: Planned Engineering
INCOMING OPERATOR: None
SHIFT SUMMARY:

BBSS' pitch appears to be fine & at end of shift one of its OSEMS.  Actuators beginning to get installed on BSC2 ISI.  HAM3 also was a hub of activity with CRS prep, baffling installed, v& iewport swap.  We also have a new Reservation System with graphical status of laser hazard/safe (thanks TJ!).
LOG:

• 1443-1526 swapping lights for West Bay cleanroom (randy)
• 1445-1546 technical cleaning in lvea (kim)
  • 1630-1818 technical cleaning at ey (kim)
• 1511-1521 Walkabout in lvea/talk to randy (richard)
• 1541-1546 HAM2 Annulus Ion Pump check (jordan)
• 1550-1854 HAM3 baffling (mitch)
  • 1621 robert joining
• 1552 bsc2 work (jim)
• 1557-1715 HEPI work (randy)
• 1559-1649 photos in bsc2 (ibrahim)
• 1602-1611 touching base w/ ibrahim (betsy)
• 1605-1614 parts search @lvea (tj)
• 1613-1800 testing seismometers on xarm (carlos.shrey)
• 1617-1651 grabbing parts in optics lab (madi)
• 1634-1645 tcs chiller (corey)
• 1635-1739 CRS set-up @ham3 (michael.shoshonna)
• 1638-1743 FARO set-up (jason.ryanC)
• 1717-1727 checking on install teams in lvea (betsy)
• 1735 HAM2 viewport checks (gerardo.jordan)
  • 1845 HAM1 cleanroom turned off
  • 1845 jordan out
• 1738-2013 ham3 cps (jim,jeff)
  • Verbal:  "ham3 cps glitch" received
  • 1816 arnaud joining
  • 2000 jeff out
  • 2003 mitch checking on cps team
• 1815-1849 Grabbing part inside ISCTEY, which requires brief laser hazard (camilla.madi)
  • 1832-1835 EY laser HAZARD briefly
• 1830 RyanS noticed that the JAC was not DOWN (it was attempting TRANS DC LOCKED for some reason), so it was taken to DOWN.
• 1850-1903 grabbing nanoscan for EX Hartman work in afternoon (camilla)
• 1917-2034 Pitching BBSS upper mass in bsc2 (ibrahim)
  • came out for lunch
• 1920-2034 Working computer for BBSS pitch relief outside ham3 (ryanS.betsy)
  • came out for lunch 
• 1924-1955 Running fire pumps (eric)
• 1949-2007 CER check (richard)
• 2012-2026 transitioning lvea to quick laser HAZARD (ryanS)
• 2026-2050 BBSS alignment checks with PSL beam (keita)
• 2029 Removing viewport @ham3 (gerardo)
  • 2144 jordan joining
• 2036 EX Hartman work, will be laser hazard for a few hours today and transitioned back to safe today (camilla.madi.tj)
  • ​​​​​​​2037 camilla out
• 2111-2122 transitioning lvea to quick laser SAFE (ryanS)
• 2126 BSC2 HEPI Actuator install (jim.mitch)
• 2147 Adjusting BBSS OSEM (ibrahim.oli)
• 2151-2259 LVEA walkthrough/check on install teams (betsy)
  • Betsy went out again and came back at 2322
• 2154-2217 LVEA walkthrough (richard)
• 2253 EX grounding studies (robert & detchar visitors)
• 2257 HAM5 ISI tripped (ryanS), no activities should be near there, untripped & brought back.

WP13346 Retire CP1 Overfill System

Erik, Dave:

As a first step in dismantling the daily CP1 overfill system, I stopped and deleted its systemd service on zotvac0. Erik and I verified that this service was not being managed by puppet, and to further verify this we let the puppet agent run and then rebooted zotvac0.

To keep the EDC green for the rest of this week, I installed a dummy IOC on the container cluster which serves those CP1 channels being acquired by the EDC.

Project History

This might be good time to give a brief history of this project. The CP1 LN2 level sensor failed way back in August 2021. For many months we ran the overfill manually. Chandra suggested an automatic system be installed and the first version of my code was rolled out 17 December 2021 just before the holiday shutdown. It then ran daily through to 01 May 2026 when the CP1 regeneration was started. During this time the code had ran daily for 1595 days (4 years, 4 months, 14 days), skiping just 31 days (1.9%). During this time several improvements were made: ramping the LLCV opening to reduce mechanical noise, using rate-of-change on the thermocouples to indicate LN2 flow, sending text messages at start and completion of each fill.

After in-chamber crews physically moved the BS, I was able to restore both the IMC flashes and the sqz beam reflected by ITMX as well as ITMY in AS as well as ISCT1 REFL camera by just using the BS sliders. sqzbeam_as_isct1.png and the video PXL_20260625_204834048TS.mp4

show the sqz beam in the AS (left) and ISCT1 (right) camera when IMC was misaligned, while PXL_20260625_204905669TS~2.mp4 is the video of the IMC flashes when SQZ beam diverter was closed.

BS top suspension offsets were  H1:SUS-BS_M1_OPTICALIGN_P_OFFSET = 107.00 and H1:SUS-BS_M1_OPTICALIGN_Y_OFFSET = 441.00.

Right now F2 coil is using ~10% of the DAC range (~13.3 million counts out of 135 million), F2 ~ 6%, and others are small. See BS_DAC_range.png. I don't think further trying to relieve this will be fruitful or useful.

Following on from alog 90738, we last had the corner alignment with the BBSS at PIT +115 and YAW -1557.  We decided to offload this YAW to the HEPI so the team embarked on that yesterday, likely another alog from IAS/SEI on that move later.  Today we went and looked at the corner beam pointing with Keita refining the BBSS alignment to PIT +107, YAW +441 (see his alog coming). 

So now, Jim and Mitchell are embarking on Actuator attachment at the piers.  We will relook at the BBSS cage position with the FARO shortly after they are complete, and then re-peek at the corner alignment likely early next week.

Meanwhile, the BBSS PIT to YAW cross coupling investigaton continues...

Jeff, Arnaud, Betsy, Oli

Yesterday we checked the coil response for the BBSS QOSEMs. We did this at the BBSS M1 QOSEM satamp. Everything is looking good and as we expected.

We did this by putting the BBSS in SAFE, then unplugging the db15's that go to the coil drivers. In their place Jeff plugged in a fancy breakout board that separated out each of the 4 channel pins. The resistance of each of the reading device channels is listed below:

 With this channel breakout board we then went channel by channel to measure voltage. We turned the master switch ON so counts can head out from the COILOUTF filter bank. For each channel, we noted the COILOUTF filter bank gain sign, and if there was any voltage read out when no offsets were put in. Then we put an OFFSET in the COILOUTF filter bank and noted the voltage that we were reading. We did this for multiple OFFSETs for each channel. After testing each channel, with an offset still on, we would check the other channels to see if anyone else was seeing anything more than their default reading with no offsets, which they never saw anything different from that. Here is that data:

You can see that the voltage signs are all consistant with the sign of the OFFSET * COILOUTF gain, and the values are all pretty consistant as well.

After we were done reading out the voltages for SUS_BS_85, we put offsets of -20,000 in F1, F2, and F3 and checked the voltages on all three channels. All three channels read the same voltage as they had when we had tested them individually at -20,000 counts. That table is below.

Addressed TCS Chillers (Thurs [Jun25] 934-945am local time) & CLOSED FAMIS #64383.

(Still not getting FAMIS notifications and not clear which FAMIS Schedule LHO is supposed to use due to duplicate schedules being generated with the new LIGO Lab FAMIS transition.)

For measurements below, measuring from "top" of the red floaty ball.

• TCSx Chiller:  Had level of 28.6 cm.  Added 525mL for 30.5cm.
  • Odd Note:  levels about the same as last fill, but this one took double the water fill.
• TCSy Chiller:  Had level of 10.2 cm.  Added 100mL for 10.6cm.  
• There was no water in the small cup under the slow leak.

Recorded our added mass configuration on the Top Mass. See diagram and associated pictures.

Top Side: 100g total, both on Front (by convention, so the side opposite the OSEM flags)

Bottom Side: 200g total, 100g on Front, 100g on Back

Total Added: 300g

See the diagram.

Jeff, Betsy, Arnaud, Oli

Yesterday afternoon we went to the BBSS QOSEM satamp and checked the coil resistance. We did this by putting the BBSS in SAFE and then unplugging the Satamp to Duopus cables one by one. Each of these three cables have the pins for two QOSEMs, split as CH1 + CH2, CH3 + CH4, and CH5 + CH6. Each cable was unplugged and then the pins for each coil probed. Below are the results. These values are all pretty similar.

Today Gerardo and I removed the unused HAM ISI Oplev viewports from the VP7 ports of both the -X input manifold and the +Y output manifold.  The ports were blanked off with 10" CF blanks.  I noted a series of 3 scratches on the angled flat of the flange, but the knife edge itself wasn't noticeably deformed.  See pics.  

Note to VAC: These will need to be leak checked during pumpdown.