[RyanS, Jenne, all the other control room people, of whom there were many]

Summary: We can get to PREP_DC_READOUT_TRANSITION (at least once), but had trouble with OMC locking.  

We tried some locking earlier in the day, first starting with doing the same trick as yesterday (alog 88432) and moving ITMX while ETM and TMS were controlled by green WFS to improve the COMM beatnote.  However, I only ended up moving ITMX 0.3 urad in yaw.  Because this was a small change and Sheila reminded me that we can lock (when the wind is low) with comm down at -10 dBm-ish, so I decided that next lock we'd just use the camera setpoints (which we did and was successful).  During this time, we had to disable SRC1 and PRC1 in DRMI ASC because they were pulling the alignment away, and we weren't really on the POP QPDs at all.  Anyhow, we got to PREP_ASC_FOR_FULL_IFO twice, but the alignment never looked excellent.  We tried ENGAGE_ASC_FOR_FULL_IFO once, and it was really bad and killed the lock.  The other time, we think that the seismic state changing from useism to windy caused us trouble (but, in retrospect, likely was only troublesome because the alignment was so poor).

We then realized that, after the big earthquakes from this weekend, our input pointing wasn't good.  RyanS then set the IMs 1, 2, and 3 such that they matched their top mass osems (not necessarily their sliders).  We then moved IM3 a little bit to get back to where we had been on IM4 Trans QPD before the power outage (pit of 0.239, yaw of -0.071).  We were able to quite easily run through an initial alignment with this.  During this and all subsequent initial alignments, we used the pre-power outage green setpoints (including cameras).  The COMM beatnote was around -9 dBm, so that's pretty good. 

Some time around here we had the -18 V failure, see alog 88446 for details. 

Then, we did another initial alignment.

Then, the CDS team let us know that they needed to reboot all the models, see alog 88448 for details.  After all the models were back, Ryan restarted the ALS_[X,Y]ARM guardians using "guardctrl restart NODE", so they would know how to start their AWGs in case SCAN_ALIGNMENT needs to be run.

We then restored sliders to just after one of our recent inital alignments, and Ryan then reset the IMs 1-3 to their top mass osems again, and again moved IM3 to get us back to the pre-power outage spot on IM4.  ....And did yet another initial alignment.

After this, we finally were able to try to lock for the first time in several hours!  And things went really, really quite well.  We basically didn't touch anything at all (PRC1 and SRC1 still disabled in DRMI ASC), and were able to lock to PREP_FOR_DC_READOUT!  Yes, you read that right, ENGAGE_ASC_FOR_FULL_IFO did just fine on its own.  The buildups went down then came back again, so we were a bit scared, but it kept hold of everything and was able to converge.  The PRM's ADS alignment took a loooonng time to converge, which we've seen before after a power outage (eg, alog 86944), so after all of the ASC was on (including SOFT_LOOPS) and converged, I reset the POP_A offsets, and Ryan accepted them in safe.snap.

(Later, after some relocks, we're able to use PRC1 in DRMI ASC now that its offsets have been set.  But, still SRC1 is left out since it's pulling things away).

We went to PREP_DC_READOUT_TRANSITION, and noticed that we were having trouble locking the OMC.  We're still not sure what's going on here, and we're going to leave it for the night.  We're hoping to leave it at PREP_DC_READOUT_TRANSITION, however the second time that we did ENGAGE_ASC_FOR_FULL_IFO, something pulled us away and we lost lock. We'll let it try one more time.

OMC locking troubles and symptoms:

• In TUNE_OFFSETS, the first time it tried to measure the transfer function, the magnitude would be way wonky (like, 40k rather than ~1), but it wouldn't go past there because the phase was more than 30 deg from 0 or 180.  It would then try again to measure the TF.
• The second time, it would often get a sensible number, and the phase was fine. However, since ErrorFlag had been set to True the first time around and it never got set back to False on the next try, it would just fail again and cycle through DOWN. I added lines to set ErrorFlag to False if the phase measured okay.
• We then started having troubles even getting it to lock on the carrier, although it looked like it found the carrier just fine, and had 16 mA on the DCPDs.
• One time, I found the carrier by hand and manual-ed over FIND_CARRIER.  However, the TUNE_OFFSETS kept giving phases of ~145 deg (which is more than 30 deg away from 180, and thus a failure).  I copied in the scale_offset value that the guardian calculated though, and then manual-ed over TUNE_OFFSETS.  We lost lock when I tried to have ISC_LOCK take us to DC_READOUT, but in retrospect that's probably due to not having done the prep items in the main state of TUNE_OFFSETS that set up the OMC-READOUT path.

TITLE: 12/10 Day Shift: 1530-0030 UTC (0730-1630 PST), all times posted in UTC
STATE of H1: Planned Engineering
OUTGOING OPERATOR: None
CURRENT ENVIRONMENT:
    SEI_ENV state: MAINTENANCE
    Wind: 9mph Gusts, 7mph 3min avg
    Primary useism: 0.03 μm/s
    Secondary useism: 0.39 μm/s 
QUICK SUMMARY:

All planned CDS Work : Status Postponed in favor of Locking.
DEC 8 - FAC - annual fire system checks around site : Status "Completed.... For now." ~ Tyler 
MON TUES - RELOCKING IFO : " In Progress "  
TUES AM - HAM7 Pull -Y Door : STATUS Completed
FARO work at BSC2 (Jason, Ryan C) Post poned in favor for locking.  : Status postponed infavor of Locking.
HAM7 - in-chamber work to swap OPO assembly : Status " In progress"
Notes: 
Fire Pump 1 is on 23:01 UTC

 -18V power supply SUSC1 power supply dead, Fil C. is replacing it. 
Dave took down corresponding AA & AI chassis and brought them back up.

Fire pump 1 back on 23:16 UTC
Fire pump 2 on at 23:19 UTC
Fire Pump 1 is back on again 23:21 UTC

High Voltage for HAM6 was accidentally shut off , which is why the Fast shutter no longer works....Turned back on at 23:53 UTC.  

16:17 All SEI ALL SUS at Corner Station taken to safe to prepair for restarting ALL CS Models.
Waiting for HAM7 OPO team to give Green Light for model restarts on HAM7.
... Oops...  ZM4 & ZM5 models were accidentally restarted  with H1SUSSQZOUT before we heard from OPO team.  

TSC X&Y CO2 TRIP Imminent !? Verbals scrolled too fast to get a time....  Dave was restarting those models at the time. 

Ends Stations and Mid stations were also restarted since the X & Y ES both tripped due to a dolphin issue. ES were not taken to Safe.
"Might as well restart them all" ~ Dave B.

SUS ETMX was shook hard enough to trip the watchdog.  Probably because they were not taken to safe befroe the reboots. 

Dave, Jonathan,

We restarted all the tonight starting at 16:30-17:40.  This was due to unexpected model behavior where epics outputs did not match daqd data.  We are working to understand the mechanism.  Our supposition is that it was due to a slow /opt/rtcds on model startup.  We did not need to restart any daqd processes, which points to this issue being internal to the models.  Dave will fill in a few more details in a comment.

[Sheila, Betsy, Anamaria, Eric, Daniel, Karmeng]

First time opening HAM7.

Removed the contamination control horizontal wafer.
Tools and iris are setup next to the chamber. 
Dust count in the chamber and in the clean room are good/low.
4 irises placed at: after ZM1, and CLF REFL. ZM3 and ZM4 are roughly placed, need to realign after CDS are power on. Pump reflection hard to place, and we will not place an iris there.

Jeff, Oli

Earlier, while trying to relock, we were seeing locklosses preceded by a 0.6 Hz oscillation seen in the PRG. Back in October we had a time where the estimator filters were installed incorrectly and caused a 0.6 Hz lock-stopping oscillation (87689). Even though we haven't made any changes to the estimators in over a month now, I decided to try turning them all off (PR3 L/P/Y, SR3 L/P/Y). During the next lock attempt, there were no 0.6 Hz oscillations seen. I checked the filters and settings and everything looks normal, so I'm not sure why this was happening.

I took spectra of the H1:SUS-{PR3,SR3}_M1_ADD_{L,P,Y}_TOTAL_MON_DQ channels for each suspension and each DOF during two similar times before and after the power outage. I wanted the After time to be while we were in MICROSEISM, since it maybe seems like maybe the ifo isn't liking the normal WINDY SEI_ENV right now, so I wanted both the Before and After times to be in a SEI_ENV of MICROSEISM and the same ISC_LOCK states. I chose the After time to be 2025/12/09 18:54:30 UTC, when we were in an initial alignment, and then found a Before time of 2025/11/22 23:07:21 UTC.

Here are the sprectra for PR3 and SR3 for those times. PR3 looks fine for all DOF, and SR3 P looks to be a bit elevated between 0.6 - 0.75 Hz, but it doesn't look like it should be enough of a difference to cause oscillations.

Then, while talking to Jeff, we discovered the difference in overall noise in the total damping for L and P changed depending on the seismic state we were in, so I made a comparison between MICROSEISM and CALM SEI_ENV states (PR3, SR3). USEISM time was 2025/12/09 12:45:26 UTC and CALM was 2025/12/09 08:54:08 UTC with a BW of 0.02. The only difference in the total drive is seen in L and P, where it's higher below 0.6 Hz when we are in CALM.

So during those 0.6 Hz locklosses earlier today, we were in USEISM. Is it possible that the combination of the estimators in the USEISM state create an unstable combination?

J. Driggers, R. Short, D. Barker, J. Kissel, R. McCarthy, M. Pirello, F. Clara
WP 12925
FRS 36300

The power supply for the negative rail (-18V) of the SUS-C1 rack in the CER -- the right power supply in VDC-C1, U3-U1 failed on 2025-12-09 22:55:40 UTC. This rack houses the coil drivers, AAs, AIs, and BI/BO chassis -- all the analog electronics for SUS-MC2, SUS-PR2, SUS-SR2.

We found the issue via DIAG_MAIN, which said "OSEMs in Fault" calling out MC2, PR2, and SR2.
We confirmed that the IMC wasn't locking, and MC2 couldn't push the IMC through fringes.
Also, the OSEM PD inputs on all stages of these suspensions were digital zero (not even ADC noise).

Marc/Fil/Richard were quick on the scene and with the replacement. 
We brought the HAM3 and HAM4 ISI -- ISI_DAMPED_HEPI_OFFLINE -- in prep for a front-end model / IO chassis restart if necessary.
Un-managed the MC2, PR2, and SR2 guardians, by bringing their MODE to AUTO.
Used those gaurdians to bring those SUS to SAFE.
- Richard/Marc/Fil replaced the failed -18V power supply.
- While there, the +18 V supply had already been flagged in Marc's notes for replacement, so we replaced that as well (see D2300167).

Replaced failed +18V power supply S1201909 with new power supply S1201944
Replaced failed -18V power supply S1201909 with new power supply S1201957.

The rack was powered back up, suspensions, and seismic restored by 2025-12-09 23:31 UTC. The suspensions appear fully functional.

Awesome work team!

Because we are back into the time of year when the ground motion can change a lot, I'm posting a quick reminder of what the blend filter low passes look like for the main two blends we use for horizontal dofs on the St1 of the ISI. Attached figure shows bode plots of the BSC St1 lowpasses on the right and the HAM St1 low passes on the left. Blue lines are the ~100mhz blends we use for the microseism states, red lines are the 250mhz blends we use for the "windy" states. The blends are the main component that changes between calm/windy and useism, I think we use the same sensor correction for both states. I won't go into detail about what these plots mean, this a iykyk kind of post. Sorry. 

TITLE: 12/09 Day Shift: 1530-0030 UTC (0730-1630 PST), all times posted in UTC
STATE of H1: Planned Engineering
CURRENT ENVIRONMENT:
    SEI_ENV state: USEISM
    Wind: 21mph Gusts, 17mph 3min avg
    Primary useism: 0.04 μm/s
    Secondary useism: 0.45 μm/s 
QUICK SUMMARY:

DEC 8 - FAC - annual fire system checks around site : In Progress
MON Tues - RELOCKING IFO : In Progress
TUES AM - HAM7 Pull -Y Door : Completed
FARO work at BSC2 (Jason, Ryan C) : Post poned in favor of Locking? 
HAM7 - in-chamber work to swap OPO assembly : In Progress.

All other work Status is currently unknown.
---------------------------------------------------------------------------------------------------

Notes:

Fire Alarm went off at 16:58 UTC 
HVAC system down Temperature will climb everywhere says Tyler @ 17:15 UTC
HVAC Fans turn back on @ 17:18 UTC Tyler says Air handlers are back on line , should be just a little Blip in temp.

Tumbleweeds at EY piled up too high to access EY. Chris has since cleared this.

Fire alarm in MSR going off @ 18:07 UTC

Initial Alignment process: 
Held ISC_LOCK in Idle
Forced X arm to get locked, Moved ITMX to increase the Comm beat note, then Offloaded it.
When we tried for an initial Alignment we skipped.Green arms in Initial alignment.
Pushed PRM to get locked while we were in PRC align. 
Pushed BS when Mich_bright aligning. 
Pushed SRM to help SRC alignment.

Locking: 
Jumped straight to Green Arms Manual and aimed for Offload_DRMI_ASC. 

Jenne D. by hand Offloaded a "PR2 osem Equivelent", during one of out locks that got DRMI locked but locklossed at Turn_On_BS_Stage2. 
another LL at Turn_On_BS_Stage2. 

We made it past Turn_On_BS_Stage2 when Jenne D. Told PRC1 & SRC1 to not run in ASC. 
H1 has been losing lock at a number of places before power up.
  

Vac finished pulling the -Y door and the 2 access ports on the +Y side, I went out and locked the ISI. A,B and C lockers were fine, the D locker couldn't be fully engaged, which I think is a known issue for this ISI. I just turned until I started feeling uncomfortable resistance, so D is partially engaged.

Tue Dec 09 10:13:17 2025 INFO: Fill completed in 13min 13secs

CDS is almost recovered from last Thrusday's power outage. Yesterday Patrick and I started the IOCs for:

picket_fence, ex_mains, cs_mains, ncalx, h1_observatory_mode, range LED, cds_aux, ext_alert, HWS ETMY dummy

I had to modify the picket fence code to hard-code IFO=H1, the python cdscfg module was not working on cdsioc0.

We are keeping h1hwsey offline, so I restarted the h1hwsetmy_dummy_ioc service.

The EDC disconnection list is now down to just the HWS ETMX machine (84 channels), we are waiting for access to EX to reboot.

Jonathan replaced the failed 2TB disk in cdsfs0.

Jonathan recovered the DAQ for the SUS Triple test stand in the staging building.

I swapped the power supplies for env monitors between MY and EY, EY has been stable since.

TITLE: 12/09 Day Shift: 1530-0030 UTC (0730-1630 PST), all times posted in UTC
STATE of H1: Planned Engineering
OUTGOING OPERATOR: None
CURRENT ENVIRONMENT:
    SEI_ENV state: CALM
    Wind: 11mph Gusts, 6mph 3min avg
    Primary useism: 0.04 μm/s
    Secondary useism: 0.54 μm/s 
QUICK SUMMARY:
 SUS in-lock charge measurements did not run due to being unlocked.
HAM7 Door Bolts have been loosened & door is ready to come off.

Potential Tuesday Maintenance Items:
CDS - Log in and check on vacuum system computer (Patrick)
18-bit DACs in iscey should be replaced with 20-bit DACs???
Beckhoff upgrades
installing SUS front-end model infrastructure for JM1 and JM3, and renaming the h1sushtts.mdl to h1sush1.mdl
RELOCK CHECKPOINT IMC
18-bit DACs in h1oaf should be replaced with 20-bit DACs
h1sush2a/h1sush2b >> sush12 consolidation
Upgrade susb123 to LIGO DACs
Add sush6 chassis
DEC 8 - FAC - annual fire system checks around site
MON - RELOCKING IFO  Reached DRMI last night
TUES AM - HAM7 Pull -Y Door
FARO work at BSC2 (Jason, Ryan C)
 

[Joan-Rene Merou, Alicia Calafat, Sheila Dwyer, Anamaria Effler, Robert Schofield]

This is a continuation of the work performed to mitigate the set of near-30 Hz and near-100 Hz combs as described is Detchar issue 340 and lho-mallorcan-fellowship/-/issues/3. As well as the work in alogs 88089, 87889 and 87414.

In this search, we have been moving around two magnetometers provided to us by Robert. Given our previous analyses, we thought the possible source of the combs would be around either the electronics room or the LVEA close to input optics. We have moved around these two magnetometers to have a total of more than 70 positions. In each position, we left the magnetometers alone and still for at least 2 minutes, enough to produce ASDs using 60 seconds of data and recording the Z direction (parallel to the cylinder). For each one of the positions, we recorded the data shown in the following plot

  

That is, we compute the ASD using 60s FT and check the amplitude of the ASD at the frequency of the first harmonic of the largest of the near-30 Hz combs, the fundamental at 29.9695 Hz. Then, we compute the median of the +- 5 surrounding Hz and save the ASD value at 29.9695 Hz "peak amplitude" and the ratio of the peak against the median to have a sort of "SNR" or "Peak to Noise ratio".

Note that we also check the permanent magnetometer channels. However, in order to compare them to the rest, we multiplied the ASD of the magnetometers that Robert gave us times a hundred so that all of them had units of Tesla.

After saving the data for all the positions, we have produced the following two plots. The first one shows the peak to noise ratio of all positions we have checked around the LVEA and the electronics room:

  

Where the X and Y axis are simply the image pixels. The color scale indicates the peak to noise ratio of the magnetometer in each position. The background LVEA has been taken from LIGO-D1002704.
Note that some points slightly overlap with other ones, this is because in some cases we have check different directions or positions in the same rack.

It can be seen how from this SNR plot the source of the comb appears to be around the PSL/ISC Racks. Things become more clear if we also look at the peak amplitude (not ratio) as shown in the following figure:

  

Note that in this figure, the color scale is logarithmic. It can be seen how, looking at the peak amplitudes, there is one particular position in the H1-PSL-R2 rack whose amplitude is around 2 orders of magnitude larger than the other positions. Note that this position also had the largest peak to noise ratio. 

This position, that we have tagged as "Coil", is putting the magnetometer into a coil of white cables behind the H1-PSL-R2 rack, as shown in this image:

  

The reason that led us to put the magnetometer there is that we also found the peak amplitude to be around 1 order of magnitude larger than on any other magnetometer on top of one set of white cables that go from inside the room towards the rack and up towards we are not sure where:

  

This image shows the magnetometer on top of the cables on the ground behind the H1-PSL-R2 rack, the white ones on the top of the image appear to show the peak at its highest. It could be that the peak is louder in the coil because there being so many cables in a coil distribution will generate a stronger magnetic field.

This is the actual status of the hunt. These white cables might indicate that the source of these combs is the different interlocking system in L1 and H1, which has a chassis in the H1-PSL-R2 rack. However, we still need to track down exactly these white cables and try turning things on and off based on what we find in order to see if the combs dissapear.

[Anamaria, RyanS, Jenne, Oli, RyanC, MattT, JeffK]

We ran through an initial alignment (more on that in a moment), and have gotten as far as getting DRMI locked for a few minutes.  Good progress, especially for a day when the environmental conditions have been much less than favorable (wind, microseism, and earthquakes).  We'll try to make more progress tomorrow after the wind has died down overnight. 

During initial alignment, we followed Sheila's suggestion and locked the green arms.  The comm beatnote was still very small (something like -12 dBm).  PR3 is in the slider/osem position that it was before the power outage. We set Xarm ALS to use only the ETM_TMS WFS, and not use the camera loop.  We then walked ITM to try to improve the COMM beatnote.  When I did it, I had thought that I only got the comm beatnote up to -9 dBm or so (which is about where it was before the power outage), but later it seems that maybe I went too far and it's all the way up at -3 dBm.  We may consider undoing some of that ITM move.  The ITMX, ETMX, and TMSX yaw osem values nicely matched where they had been before the power outage.  All three suspensions' pitch osems are a few urad different, but going closer to the pre-ooutage place made the comm beatnote worse, so I gave up trying to match the pitch osems.  

We did not reset any camera setpoints, so probably we'll want to do the next initial alignment (if we do one) using only ETM_TMS WFS for Xgreen.  

The rest of initial alignment went smoothly, after we checked that all other optics' sliders were in their pre-outage locations.  Some were tens of urad off on the sliders, which doesn't make sense.  We had to help the alignment in several places by hand-aligning the optics a bit, but no by-hand changes to controls servos or dark offsets or anything like that.

When trying to lock, we struggled to hold Yarm locked and lock COMM and DIFF until the seismic configuration auto-switched to the microseism state.  Suddenly things were much easier.  

We caught DRMI lock 2x times on our first lock attempt, although it lost DRMI lock during ASC.  We also were able to lock PRMI, but lost lock while I was trying to adjust PRM.  Later, we locked PRMI, and were able to offload the PRMI ASC (to PRM and BS).  

The wind has picked back up and it's a struggle to hold catch DRMI lock, so we're going to try again tomorrow.

(Randy, Jordan, Travis, Filiberto, Gerardo)

We closed four small gate valves, two at the relay tube, RV-1 and RV-2.  Two at the filter cavity tube, between BSC3 and HAM7, FCV-1 and FCV-2.  The purge air system was on since last week, with a dew point reported by the dryer tower of -66 ^oC, and -44.6 ^oC measured chamber side.  Particulate was measured at the port by the chamber, zero for all sizes.  HAM7 ion pump was valved out. 

Filiberto helped us out with making sure high voltage was off at HAM7, we double checked with procedure M1300464.  Then, system was vented per procedure E2300169 with no issues.

Other activities at the vented chamber:

• Annulus ion pump was turned off, and system was vented with nitrogen gas.
• Most of the bolts were removed from the -Y door, we left the usual 4.
• Most of the bolts were removed for both of the 12" blanks, access ports, located on the +Y door, only 3 hand tight bolts remain on each blank.

Currently the chamber has the purge air active at a very low setting.

I ran the dry air system thru its quarterly test, FAMIS task.  The system was started around 8:20 am local time, and turned off by 11:15 am.  System achieved a dew point of -50 ^oF, see attached photo taken towards the end of the test.  Noted that we may be running low on oil at the Kobelco compressor, checking with vendor on this.  Picture of oil level is while system is off.