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Reports until 18:21, Wednesday 10 December 2025
H1 General
anthony.sanchez@LIGO.ORG - posted 18:21, Wednesday 10 December 2025 (88470)
Windy Wednesday Ops Shift Signing Off

TITLE: 12/11 Day Shift: 1530-0030 UTC (0730-1630 PST), all times posted in UTC
STATE of H1: Planned Engineering
INCOMING OPERATOR: None
CURRENT ENVIRONMENT:
    SEI_ENV state: USEISM
    Wind: 52mph Gusts, 37mph 3min avg
    Primary useism: 0.13 μm/s
    Secondary useism: 0.61 μm/s 
SHIFT SUMMARY:
We had Planned to lock today to get proof of life out of H1, but then...
The tumbleweeds were trying to get in from the Roof during the 70 MPH Wind conditions we had today. We let the tumbleweeds win and didn't try to lock but did other things.
Y arm was clear enough for TJ to get to, but X arm is impassable due to a tumble-anche along the road there. 

Beckhoff Upgrades were done for Corner5.
Faroing was started but not finished.
JAC work has started and we were able to recover the IMC. 

CDS was able to make some progress today as well. 


Random notes I took throuout the day: 

Dave did a restart everything here
Frame writer restart happened today.
The Wind only Looks like it reached 114 MPH as indicated by the wind speed, but it only hit 70 MPH. 
Corner 5 beckhoff install starting at 23:00 UTC

FW1 rerstart @ 23:05 UTC
Might need to reboot ASCSQZIFO or ASCSQZ0 computer: Completed. 
 
PSL enclosure temps alarm sounded off at 23:22 UTC during the DAQ restarts.

440 channels added to H1EDC for beckhoff. 


IMC recovery :
I ended up Clearing history on IMC WFS...
Reverted MC and IMC PZTs  back to GPS time: 1449411452 (the last time we had the IMC locked.)
I then moved MC2 until the we had a good lock on MC_Trans.  IMC-WFS_GAIN was taken from 0.04 to 0.4  and then back again to allow the WFS to move IMC.
We then offloaded it.  

Forcast for tomorrow: https://alog.ligo-wa.caltech.edu/aLOG/uploads/88470_20251210180643_2025-12-10_18-06.png

LOG:
 

Start Time System Name Location Lazer_Haz Task Time End
15:57 SAFETY LASER HAZ STATUS LVEA YES LVEA is LASER HAZARD  \u0d26\u0d4d\u0d26\u0d3f (\u239a_\u239a) 10:31
15:42 FAC Kim & Nellie LVEA y Technical Cleaningq 17:05
16:42 TCS Matt Prep lab n Cheta table work 18:52
16:50 SEI Randy MY N Cleaning the Quad picker 19:14
17:24 Faro Jason LVEA Y Setting up Faro Equipment 17:43
17:40 PEM Joan-Rene, Alicia LVEA y Unplugging a cable 18:57
17:40 VAC Jordan Lvea y Purge air Dew point measurement. 17:52
17:46 SQZ Sheila, Daniel, Kar Meng, Eric LVEA YES HAM7 work 20:24
18:24 SEI Jim EY N Checking the Wind fence for damage 20:24
18:25 SQZ Oli HAM7 y Running parts 18:29
18:42 IAS Jason, Ryan C LVEA y Faroing 20:46
18:52 SQZ Betsy LVEA y Running parts & Info 19:12
19:21 JACK Jennie W JOAT N Working on JACK 19:25
19:33 SEI Randy LVEA HAM1 y Moving pallots near HAM1 21:33
20:43 CDS Dave CER N Installing Hardward for CDS ADC upgrade 21:43
21:40 IAS Jason, RyanC LVEA Y FAROing HAM2 area 22:27
22:18 FAC Tyler CER N Checking temp alarm 22:22
23:25 SQZ Sheila, Eric, Daniel, Karmeng LVEA HAM7 Yes HAM7 OPO work 01:03
23:43 VAC Betsy Highbay y Leaving parts 00:13
00:18 OPS RyanC PCAL lab N Grab DM charger 00:24
00:32 JACK Daniel LVEA y Installing Jack Chassis 02:32
00:33 PEM Ryan C CER & LVEA N Setting up Dust monitor station 00:48
00:38 PEM TJ EY N Checking flow rate for dust pumps 00:48
01:00 IAS Jason LVEA y Turing off Faro 01:09
Images attached to this report
H1 IOO (CDS, OpsInfo)
jennifer.wright@LIGO.ORG - posted 17:29, Wednesday 10 December 2025 (88469)
JAC model upgrades 2 - LSC model

Jennie W, Daniel S, Jeff K,

 

I added a JAC top_names part to the h1lsc model. This should be pretty simply as the JAC only has one RF PD for length feedback and two feedback paths, one to an onboard PZT and one to temperature of the JAC spacer, this latter part is done in Beckhoff.

The PZT output to the DAC is shown here.

The lower level contains a standard library REFL PD part but I removed the RF9 path and renamed the RF45 path to RF43 as this is the frequency we are using for the JAC control sidebands. There is also a block for reading out the low frequency signal 'REFL_A_DC' and a block for feedback filters 'L_SERVO'.

 

Images attached to this report
H1 IOO (CDS, OpsInfo)
jennifer.wright@LIGO.ORG - posted 17:22, Wednesday 10 December 2025 (88465)
JAC model upgrades 1 - ASCIMC model and SQZ model

Jennie W, Daniel S, Jeff K,

 

Human Readable Summary:

Today I finished doing the last round of changes to ascimc.mdl which adds a path to do ASC for the new jitter attenuation cavity, JAC. As part of this, the IMC will no longer be using the PSL periscope PZT as a feedback path to control input alignment and instead this path will be used to align to the JAC. We have implemented logic in the IMC ASC model to use the IMC as normal just now. We have also put in the infrastructure in this model for the JAC ASC in a JAC top_names block. The JAC has 2 WFS, 1 RF PD as input and feeds back to the PSL periscope and JM1 tip-tilt suspension for alignment. These changes were built and added to the re-locked revision in the svn.

Details for the IMC: We have added a line to the output matrices of the IMC (old P and Y in medm) where the final fifth line is used to send signals to the new JM3 tip-tilt which will be installed in HAM1 during the vent downstream of the JAC and upstream of the IMC, these currently contain zeros in the fifth line but I haven't updated the medm screen for IMC_WFS yet. The ASCIMC model now contains send PCIe modules whoch correspond to the recieve modules in the SUS-JM3 model.

There is also a switch H1:ASC-IMCJAC_PZTOUTSW in the top level of the ASC IMC model to switch between the JAC servo using the periscope PZT as a feedback path (switch OFF) and the IMC servo using the PZT as a feedback path (switch ON). This has been saved in safe SDF snap file in the ON state which means the IMC should work as expected until we have the JAC installed.

I have uploaded a pic here and here of the changes made to the top level in H1ascimc.

Details for the JAC ASC: In the JAC top_names block we have the attached architecture. This has standard library blocks for the A and B JAC in-air WFS and the DC readouts of each these.

The controls are copied from the IMC model but with 2 degrees of freedom instead of 5. I have also skipped the dither locking controls as we don't seem to currently use this in the IMC.

Details for h1sqz model:

Four squeezer channels were added to h1ascimc model and removed from the h1sqz model are:

H1:SQZ-OPO_SERVO_EXC

H1:SQZ-SHG_SERVO_EXC

H1:SQZ-LO_SERVO_EXC

H1:SQZ-CLF_SERVO_EXC

- two are sent from the SQZ model, H1:SQZ-OPO_DITHER_DRIVE and H1:SQZ-LO_DITHER_DRIVE, they go into a SQZ block.

This block contains these filter banks, which we transferred from the h1sqz model. SHG_SERVO_EXC and CLF_SERVO_EXC have grounded inputs like they did the h1sqz model. The outputs are sent to the DAC0 channels highlighted with a green dotted line in this image of the h1ascimc model.

Images attached to this report
H1 SQZ (SQZ)
daniel.desantis@LIGO.ORG - posted 17:22, Wednesday 10 December 2025 (88461)
HAM7 Work Wednesday 12/10

[Sheila, Eric, Kar Meng, Daniel]

At the time of removing soft cover, the particle count was ~2. We begun with the OPO dither locked. We also updated the ramp time on the PSAM controllers to be 100ms (they were at 1ms). It seems like the PSAMS are reading back the correct value (matches setpoint/target).

Betsy provided us with the screws for locking down the VIP, they are a #10 button head screw but they seem to fit in the slot for the locking mechanism. We have no washers for the #10 screw, which is not ideal. The #10 button head is not sufficiently wide enough and only engaged on one side of the slot. As a compromise, a 1/4" washer was tried to buffer this. Unfortunately, this was thick enough to prevent the screw from engaging on the threads, so two of the other bolts were installed without washers. One of the bolts that was installed is the correct bolt/washer. Once all the screws were in, the thumb screws were tightened and the OSEMs were checked. Pitch yaw and roll are all less than 1urad different. Vertical displacement is 100um different.

After finishing locking down: particle count was ~ 60

We were thinking about moving the second iris on the sqz path from between ZM3 and FC1 to between ZM2 and ZM3 so that we could see the retroreflection from the FC, but we abandoned this idea because Sheila thinks it wont be that helpful considering how difficult it seems it would be to move it there. As far as irises go, all the irises we need to install in the HAM7 chamber have been placed. We have irises installed on the transmission path to the homodyne and the CLF path on T7. It looks like the homodyne/transmission path is slightly misaligned relative to the irises placed before the vent (see images attached). We also still need to install one final iris on the green pump REFL path on T7 before we remove the OPO. We could not install this today because we could not get the SHG to lock.

We were having quite a bit of trouble dither locking the OPO, so the seed/clf input alignment may be a bit off. TEM01 and TEM00 have very similar dip fractions. By adjusting the locking code, Sheila was able to get the OPO locked to the TEM00 mode. 

At the end of the day, we adjusted the iris between ZM3 and FC1 for better centering and placed 2 dogs around the OPO.

Images attached to this report
H1 IOO
daniel.sigg@LIGO.ORG - posted 17:17, Wednesday 10 December 2025 (88468)
JAC electronics chassis

Installed two 4-chn demod chassis and the in-vacuum interface chassis. This completes the chassis installation for JAC.

H1 CDS
david.barker@LIGO.ORG - posted 17:10, Wednesday 10 December 2025 - last comment - 17:11, Wednesday 10 December 2025(88466)
CDS Upgrade Summary: Wed 10th December 2025

h1asc0 upgrade

Daniel, Jennie, Jeff, Fil, Jonathan, EJ, Dave:

An additional ADC was added to h1asc0's IO Chassis, Fil installed the corresponding AA chassis.

h1iopasc0 model was upgraded to add this ADC.

h1ascimc model was upgraded by Jennie and Jeff, this required a DAQ restart

h1lsc0 upgrade

Daniel, Jeff, Jennie, Dave:

New h1lsc and h1sqz models were installed. DAQ restart was required.

Beckhoff Upgrade

Daniel, Dave:

New ini files were installed for CSAUX, CSISC and CSTCS. DAQ+EDC restart was required

TW0 raw minute trends offload

offloading of raw trends from tw0 completed at 04:30 this morning. I reconfigured nds0 and started the file deletion at 16:50.

DAQ Restart

Jonathan, Dave:

DAQ was restarted twice, first for model changes, second for further model changes and EDC change (Beckhoff).

On first restart it was found that h1ascimc had removed two DQ channels used by GDS. There were returned for the second round of model/DAQ restarts.

Comments related to this report
david.barker@LIGO.ORG - 17:11, Wednesday 10 December 2025 (88467)
Link

I'm running a temporary HWS-ETMX dummy IOC on cdsioc0 to "green up" the EDC.

cds_status_ioc was upgraded to expect +1 ADC in the site wide ADC count.

H1 DAQ
daniel.sigg@LIGO.ORG - posted 15:30, Wednesday 10 December 2025 (88463)
Slow Controls Upgrade

Marc Daniel

We upgared the EtherCAT Corner Station Chassis 5 according to D1200132-v4 and E1200077-v4. The corresponding software changes were also comitted. This now includes all necessary upgrades to support JAC and most of the ones needed for BHD.

H1 SEI
ryan.crouch@LIGO.ORG - posted 09:50, Wednesday 10 December 2025 (88411)
ISI CPS Noise Spectra Check Weekly FAMIS

Closes FAMIS27617, last checked in alog88307

HAM7 looks very noisy as expected due to it being vented.

ITMX_ST1_CPSINF_V3 has some more lines at high frequency.

ETMX_ST1_CPSINF_V3 lines are larger at high frequency, the line at 30HZ on ETMY_ST1 looks larger for mulitple sensors.

Non-image files attached to this report
CPS_spectra_09:40-12_10_2025.pdf
H1 General
anthony.sanchez@LIGO.ORG - posted 07:54, Wednesday 10 December 2025 (88455)
Wednesday Ops Shift Signing On

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: SEISMON_ALERT
    Wind: 46mph Gusts, 34mph 3min avg
    Primary useism: 0.14 μm/s
    Secondary useism: 0.39 μm/s 
QUICK SUMMARY:
Looks like someone woke up and ran an Initial_Alignment first think this morning.
When I got it H1 was in an Initial Alignment complete state. which is fantastic, but unfortunately the Wind is Howling on site right now. 
I'm going to try to lock 3 times just to see if I can catch a lucky lock. But the Wind forcast look abysmal for locking today. 

Images attached to this report
H1 ISC
jenne.driggers@LIGO.ORG - posted 20:06, Tuesday 09 December 2025 - last comment - 11:24, Wednesday 10 December 2025(88450)
Locking progress today

[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).

The violin modes are quite high, but not so bad that it's impossible to get 2W locked. 

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:

Comments related to this report
ryan.short@LIGO.ORG - 20:30, Tuesday 09 December 2025 (88451)
Link

Screenshot attached of newly SDF accepted POP A offset values.

Images attached to this comment
jenne.driggers@LIGO.ORG - 20:31, Tuesday 09 December 2025 (88452)
Link

Okay, we tried *one* more time, this time doing the same skip-over-tune_offsets thing, but having remembered to do the critical first few lines in the main state. We seemed to successfully get onto DC readout, the ISC_LOCK state DC_READOUT finished, and we  started to see the DARM trace on the wall come down.  However, we lost lock pretty suddenly.  Ryan and I are giving up for the night.

Also, during engage ASC for full IFO, as part of getting up to attempting DC readout, we turned SRC1 off by hand since it was starting to pull things away.  Ryan by-hand aligned SRM to get us back to good alignment.  Ryan tried turning on SRC1 pit after the SOFT loops were converged, but that immediately started pulling us away, so we turned it back off and re-touched up SRM.

sheila.dwyer@LIGO.ORG - 22:40, Tuesday 09 December 2025 (88453)
Link

  • Next lock attempt we lost lock on during the CARM offset reduction. 
  • Next time I stopped in DRMI_CHECK_ASC since the sideband build ups didn't look great, I struggled to fix them by moving SRM, then lost lock to some strange glitches (see screenshot).  I think the reason I was having trouble adjusting the alignment by hand may have been that SRC2 was on (SR1 off as Jenne said above).  I've set the useSRC2 flag to false in DRMI ASC now.  
  • Had ALS locklosses for a little while, and DRMI was poorly aligned, so I ran initial alignment. 
  • After that initial alignment locked well, like Jenne + Ryan's last comment above I had to turn off the SRC1 loop in engage ASC for full IFO.  I've commented these out of ENGAGE_ASC_FOR_FULL IFO for now, so we don't need to be manually turning it off to avoid locklosses. Then as the soft loops came on I adjusted SRM by hand to keep the sideband powers OK.  The guardian ran through OMC locking and tune offsets without issue, so I let it try DC readout without looking into the issues that Jenne and Ryan had with the OMC, this did not work.  One thing that could be an issue is that we recently moved teh DARM offset step (which also requests the OMC guardian to lock and do tune_offsets) 88346.  A few weeks ago this was aparently happening after engage ASC but before the soft loops, SVN diffI've now set the DARM_OFFSET step back to it's older place, after the first round of ASC is engaged, so that TUNE_OFFSETS should be happening at the same place in the sequence that it's been at since shortly before the OFI break. 
  • Because of the manual stepping of the SRM, I'm asking it to run initial alignment now so that in the morning the IFO will be well aligned.  
  • Made one last attempt.  This time I tried stepping through DC_READOUT state, we lost it as soon as we ramped the matrix, although that looked to be stable in the previous attempt.  
Images attached to this comment
jenne.driggers@LIGO.ORG - 11:24, Wednesday 10 December 2025 (88460)
Link

Looking back at the locklosses at DC readout transition, Ryan and my lockloss at ~8:30pm seemed to be successful through the matrix ramp and beyond.  However, we got a bit of a ringup at ~18.5 Hz in LSC DARM. 

Sheila's lockloss around 1030pm is similar, although did lose lock right at the end of the matrix transition.  This lockloss had a DARM oscillation a little lower, closer to 14 Hz.

There is some data-getting issue, but once that gets solved Oli plans to try re-running the lockloss tool so we can see if there is anything else suggestive of why we might have struggled. 

Images attached to this comment
H1 SQZ (SQZ)
karmeng.kwan@LIGO.ORG - posted 17:26, Tuesday 09 December 2025 - last comment - 21:02, Tuesday 09 December 2025(88443)
HAM7 VOPO replacement activity (iris setup)

[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.

 

Comments related to this report
eric.oelker@LIGO.ORG - 21:02, Tuesday 09 December 2025 (88454)
Link

We took some photos to help us determine where to place the irises and how to route the new in-vacuum cabling.  Linking them here since they might be useful when planning for future vents:

https://photos.app.goo.gl/xYCUhbqwxzZVwe7c6

H1 SUS
oli.patane@LIGO.ORG - posted 17:00, Tuesday 09 December 2025 - last comment - 11:10, Wednesday 10 December 2025(88445)
Estimators seemingly caused 0.6 Hz oscillations again

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?

Images attached to this report
Comments related to this report
edgard.bonilla@LIGO.ORG - 08:51, Wednesday 10 December 2025 (88456)
Link

This is possibly true. The estimator filters are designed/measured using a particular SEI environment, so it is expected that they would underperform when we change the SEI loops/blends.

Additionally, we use the GS13 signal for the ISI-->SUS transfer function .It might be the case that the different amount of in-loop/out-of-loop ness of the GS13 might do something to the transfer functions. I don't have any math conclusions from it yet, but Brian and I will think about it.

jeffrey.kissel@LIGO.ORG - 11:10, Wednesday 10 December 2025 (88458)SEI, SUS
Link 

I'm pretty confident that the estimators aren't a problem, or at least a red herring.

Just clarifying the language here -- "oscillation" is an overloaded term. And remember, we're in "recovery" mode from Last Thursday's power outage -- so literally *everything* is suspect and wild guesses are are being thrown on around like flour in a bakery, and we only get brief, but separated by 10s of minutes time, unrepeatable, evidence that something's wrong. 

The symptom was "we're trying 6 different things at once to get the IFO going. Huh -- the ndscope time-series IFO build ups as we're locking one time looked to exponentially grow to lock-loss in one lock stretch and in another it just got noisier halfway through this lock stretch. What happened? Looks like something at 0.6 Hz."

We're getting to "that point" in the lock acquisition sequence maybe once every 10 minutes.
There's an entire rack's worth of analog electronics that go dark in the middle of this, as one leg of its DC power failed. (LHO:88446)
The microseism is higher than usual and we're between wind storms, so we're trying different ISI blend configurations (LHO:88444)
We're changing around global alignment because we thing suspensions moved again during the "big" HAM2 ISI trip at the power outage (LHO:88450)
There's a IFO-wide CDS crash after a while that requires all front-ends to be rebooted; with the suspicion that our settings configuration file track system might have been bad . (LHO:88448)...

Everyone in the room thinks "the problem" *could* be the thing they're an expert in, when it's likely a convolution of many things.

Hence, Oli trying to turn OFF the estimators.
An near that time, we switch the configuration of the sensor correct / blend filters of all the ISIs (switching the blends from WINDY to MICROSEISM -- see LHO:88444).

So -- there was 
    - only one, *maybe* two where an "oscillation" is seen, in the sense of "positive feedback" or "exponential growth of control signal." 
    - only one "oscillation" where it's "excess noise in the frequency region around 0.6 Hz," but they check if it actually *is* 0.6 Hz again isn't rigorous.

That happens to be frequency of the lowest L and P modes of the HLTSs, PR3 and SR3.
BUT -- Oli shows in their plots that:
    - Before vs. after the power outage, when looking at times when the ISI platforms are in the same blend state PR3 and SR3 control is the same.
    - The comparing the control request when the ISI platforms are in microseims vs. in windy show the expected change in control authority from ISI input, as the change in shape of the ASD of PR3 and SR3 between ~0.1 and ~0.5 Hz matches the change in shape of the blends.

Attached is an ndscope of all the relevant signals -- our at least the signals in question, for verbal discussion later.
Images attached to this comment
LHO General
corey.gray@LIGO.ORG - posted 12:29, Thursday 04 December 2025 - last comment - 13:35, Wednesday 10 December 2025(88363)
POWER OUTAGE At LHO At 1225pm PDT!

It's been a few minutes so far.  There is emergency lighting.  Luckily since it was lunchtime there were no people out on the floor.  Recovery Begins!

Comments related to this report
jeffrey.kissel@LIGO.ORG - 13:35, Wednesday 10 December 2025 (88462)CDS
Link 

The power was out from 2025-12-04 or Thursday Dec 04 2025 from 20:25 UTC until 22:02 UTC.
X1 DTS
joshua.freed@LIGO.ORG - posted 17:16, Monday 01 December 2025 - last comment - 11:36, Wednesday 10 December 2025(88293)
SPI Pathfinder, Phase noise measurements for Keysight 33600A waveform generator

J. Freed,

I took Phase noise measurements of the 2 channel Keysight 33600A waveform generator for its use in building SPI Pathfinder in the optics lab before install. Going only off of the phase noise graphs, it is sufficient as it shows comparable results to the SRS which had a phase noise considered to be good enough for SPI pathfinder.

Key.png Shows the phase noise results. C1, C2 are the phase noise results for Channel 1 and Channel 2 on the Keysight, respectively. (Set up shown below). Shown for comparison the SRS SG392, which was suggested as a possible frequency source for SPI. The last measurement shown is the direct measurement of phase noise between the 2 channels of the Keysight. This measurement reflects the intended use case of the Keysight for SPI. As we need 2 frequencies at slightly different frequencies locked to each other and SPI will be measuring the output phase difference. Note the 60Hz peak; most likely caused by unclean AC power. This is why we are not using an AC powered device in the final installation. 

Screenshot2025-12-01at50150 PM.png Shows the setup for C1, and C2. measurements. The SRS value was found with the same set up, just replacing the Keysight 33600A with a SRS. The C1-C2 is a direct measurement by plugging both channels into the BluePhase 1000. There is no 10MHz Ext back attachment in this measurment in order to best represent Keysight's theoretical performance in the optics lab.


 

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joshua.freed@LIGO.ORG - 11:36, Wednesday 10 December 2025 (88457)
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Edit to the other comment and the main post

After a discussion with Jeff, we figured the best course of action would be to have all the generators referenced to the same generator. In order to better compare all the results. As well as, redo the plot in the previous comment to better reflect SPIs requirements as the base standard rather than the other way around. 

PhaseNoiseSetUp.png Is a picture of the set up, it is similar to the previous tests except everything is referenced to the SRS. One thing I failed to mention in the previous tests and is not listed in the diagram is that the divide-by-eight goes into another Distribution Amp. before heading into the Ext. 10MHz of the function generators. Also note that the Double Mixer (DM) does not have an Ext 10MHz port. Instead it takes the 80MHz signal from the first differential amp; and a sin and cos 4096Hz signal from a CDS DAC through an AI chassis. (see 81593). Also note that the OCXO measurement took a pickoff from the first Distribution Amp instead of some sort of extra DoT. 

Keyrad2.png Is the graph of phase noise measurements of the Double Mixer (DM) D2400315, a LIGO 80 MHz OCXO D080702 (Which both DM and OCXO are used in the final SPI design), and a Keysight 33600A dual source waveform generator which will be used during the SPI build. The phase noise measurements were all referenced with a SRS SG382. Note that the BluePhase 1000 set up calculates values in dBc/Hz, to convert to a more directly useful value for SPI, rad/rtHz, I used the conversion:

[rad/rtHz] = sqrt(2) * 10^([dBc/Hz]/20)

The w/o. Ref. label is a separate reference from the SRS. In SPI, there is a reference interferometer that removes noise gained along each of the arms of the main SPI Mach-Zehnder. Mathematically speaking, this subtraction has an attinuation effect on our phase noise of:

Phase Noise = D/c * f * Phase noise(w/o. Ref.)

Where D is the length mismatch in the main arm between the reference and the main interferometers (or ~30m), c is the speed of light, and f is the frequency of the phase noise. Or put another way, the plots that have the label (w/o Ref.) are the direct measurements of the phase noise while plots without that label are the theoretical effect of the noise in our system. We will experimentally test this later once SPI is installed using injections; by altering the 4096Hz CDS filter bank for the DM. 

P.S. I have no idea why the OCXO noise is worse than the DM. We expected it to be better. A possibility is that since the DM measurements were taken more than a half a year ago, one of the devices was "just having a bad day" today. Investigating this, while interesting, is a lower priority than other tasks as the main goal of investigating the Keysight noise performance was achieved. 

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joshua.freed@LIGO.ORG - 13:57, Tuesday 02 December 2025 (88316)
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Edits to previous post. Graph: X axis label should be 'Frequency offset from 80MHz (Hz)' and y-axis label should be 'dbc'

Keyradwref.png and Keyradworef.png are the requirements for the phase noise of our oscilator with SPI having and not having a reference interferometer respectivly. In the final SPI pathfinder install, we will have a reference interferometer giving us much less stringent requirements on our oscialtors phase noise. But during the build, it may be nessisary to run tests without a reference interferometer, I plotted the without reference interferometer if that situation ever does come up. 

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