Fri Nov 07 10:13:42 2025 INFO: Fill completed in 13min 39secs
Gerardo confirmed a good fill curbside.
TITLE: 11/07 Day Shift: 1530-0030 UTC (0730-1630 PST), all times posted in UTC
STATE of H1: Earthquake
OUTGOING OPERATOR: Ryan C
CURRENT ENVIRONMENT:
SEI_ENV state: USEISM
Wind: 10mph Gusts, 8mph 3min avg
Primary useism: 0.04 μm/s
Secondary useism: 0.75 μm/s
QUICK SUMMARY:
IFO is LOCKING at INITIAL_ALIGNMENT
We had a very local EQ during the no-call time on OWL (alog 88001) that tripped the following watchdogs: ISI EY ST1, ISI EY ST2, ISI IX ST1, ISI IX ST2, ISI IY ST1, ISI IY ST2, SUS IX, SUS IY, SUS EY, IX HW WD. IY HW WD, ISI HAM1, SEI ISI IX SW, SEI ISI IY SW, HEPI IX, HEPI IY.
Richard, who was on site, untripped them before shift start.
Just started an initial alignment and now watching out for SRY and IM issues that have happened before during violent WD tripping EQs.
Hoping for a smooth day of OBSERVING
The MY PT243 Cold Cathode vacuum gauge still trying to fire back up. I have extended its alarm bypass. It is the reason for the red "CDS ALARM" indicator on the CDS Overview.
Bypass will expire:
Mon Nov 10 10:26:18 AM PST 2025
For channel(s):
H0:VAC-MY_Y1_PT243B_PRESS_TORR
We lost lock and several suspension have tripped from a 5.7 from Northern Mexico. There are DACKILLs on both the ITMs, this needs a model restart I believe to fix, we are going to be DOWN for the rest of the OWL shift at least. I'll call out for help in a bit, after 6.\
The microseism is also increasing, so I'm not so sure we'd be able to relock.
ITMX,ITMY -SUS, ISI, HEPI were all tripped. I have reset all the watchdogs and and ITM spots have returned to the camera screen. Will let the operator check the health of the system before moving on.
TITLE: 11/07 Eve Shift: 0030-0600 UTC (1630-2200 PST), all times posted in UTC
STATE of H1: Microseism
INCOMING OPERATOR: Ryan C
SHIFT SUMMARY:
Shift started with locking outlook grim, but eventually H1 locked DRMI and it was automatic after that. There was an issue with ADS lines, but that was mostly taken care of with some help from friends. Microseism continues to be very high.
Since Locking was fine, we are set for OWL tonight (gave RyanC a heads up). If there is a lockloss, the ADS Clock Gain SDF diff will need to be accepted.
LOG:
With the locking difficulties lately, we were wondering if the .3-1hz gnd motion might have an impact on the ability of the interferometer to stay locked. I'm not sure I have a complete answer to that yet, but it does seem like there might be some impact. For the 4 attached plots, I got the max minute trends for the .3-1hz blrms velocity and the .1-.3hz blrms for the Y leg of the ITMY STS for O3 and O4A,B&C. For each minute, I plot the .3-1hz blrms on the x-axis and .1-.3hz blrms on the y-axis. The blue points are all of the data points, the red points are for the times we were locked at NLN. The first plot is for O3, the second is O4A, third is O4B and the fourth is O4C.
For all plots, the bulk of the .3-1hz motion is below 200nm/s. For O3, it seems like the motion was generally lower for these bands in the y direction, but we were locked for more of the points above 200nm/s for the .3-1hz band. It also seems like we have gotten less robust against both bands as O4 has gone on, the distribution of red locked points seems pushed down and left for O4C relative to the other runs.
Last plot is a cumulative distribution function for the .3-1hz blrms velocity for O3 and O4C. The x axis is the .3-1hz blrms velocity, the y intercept for each curve is the percent of the time the velocity was below the x-value. The solid lines are the cdfs for all of the data for each run, the dashed lines are the cdfs for time we were locked at nln. This plot again suggests the overall velocities for O3 were lower than O4C. The separation between the upper end of the O4C curves also suggests that the higher velocities had more of an impact on our ability to stay locked.
This afternoon I picked up the Pelican case with the HXDS from Rahul and brought it up to the triples lab to unwrap, and inspect.
Inspection of the Pelican case showed the shock pads were untriggered, and the zip tie was intact. Opening the case I found the Shipping/Receiving checklist, digging out the foam I found the desiccant indicator (top right) had not triggered at any percentage. The outer bag looked good, no rips or tears and it was fully sealed, the inner bag was the same story. Taking the suspension out of the inner bag, the foil was in pretty good shape (front, back) aside from the front right corner where it was tearing a bit to reveal the C3 underlay. Under the foil was the final layer, a C3 cloth cover. Under the cloth there were some dry wipes to protect the blades (front, back). I inspected the major assemblies (front, back) and verified their serial numbers to the ICS load, the Interm Mass Fixture Assy on the front and the Interm Mass Wire Mtg. Plate Assy on the sides. The dowel pins all looked well seated, the screws and nuts were tight across the suspension, aside from the double nut on the back blade's earthquake stop (when viewed from the front). I found that double nut loose to the touch, moving the suspension let me hear that the blades had play. Both the blade with the tight and loose double nuts had some vertical play that I could hear.
Also here's a side by side of the upgrade small suspensions, in order the HRTS (suspended configuration that will attach to the BBSS), the HXDS, and the HTTS (tip tilts). None of the suspensions have their bottom stage optics in yet (the tip tilt has an old optic in it currently).
Finally able to get H1 locked. It is interesting that DRMI was able to lock as soon as Robert was finished turning off his amps and coiling his cables.
Basically made it all the way to NLN automatically.
However, a few issues at NLN:
Since Elenna had me zero the clock gains on sitemap/ASC/DitherOverview, I revisited ISC_LOCK.py and changed the 300s to 0s (4th screenshot), SAVED, & hit LOAD, I was kicked out of observing and then I took H1 back to Observing 9-seconds later. (I reckon I should have added a new comment saying I made this gain change and added today's date, but we're already back to observing).
BUT, on the TO DO list is ACCEPTING these CLK GAINS for the next lock. (I've given RyanC (owl) heads up in case this happens overnight.)
Since Alicia and Joan-Rene found that there may be some correlation between some combs and the ITM ESDs, we're interested in trying to ground the ITM ESDs. But, since we use ITMX during the transition of the ETMX ESD electronics, we need to change the transition such that we use ETMY and not ITMX.
I started with the LOWNOISE_ESD_ETMY state that we had put in some months ago, and made it look more like TRANSITION_FROM_ETMX. Having done that, I think we can go LOWNOISE_COIL_DRIVERS -> LOWNOISE_ESD_ETMY -> LOWNOISE_ESD_ETMX, rather than the usual LOWNOISE_COIL_DRIVERS -> TRANSITION_FROM_ETMX -> LOWNOISE_ESD_ETMX. I've made that a viable path in the ISC_LOCK guardian, but with a giant weight of 15 so that it won't ever take this new path on its own. Note that this means we don't need at all the BACK_TO_ETMX state, which I've removed from the path.
For changes to LOWNOISE_ESD_ETMY,
I left the ETMY L3 DRIVEALIGN L2L gain at -34.7, since that's what it was last time we tried this (looks like around March 20th 2025, 16:20 UTC). But, I think we'll definitely need to double-check that number by measuring the DARM loop.
As Sheila suggests, the right thing to do to test this is probably to do the state LOWNOISE_ESD_ETMY by hand, so that we can go partway and measure the DARM loop, to make sure the gains are kind of okay. We might give this a try sometime next week.
TITLE: 11/07 Eve Shift: 0030-0600 UTC (1630-2200 PST), all times posted in UTC
STATE of H1: Microseism
OUTGOING OPERATOR: TJ
CURRENT ENVIRONMENT:
SEI_ENV state: USEISM
Wind: 8mph Gusts, 5mph 3min avg
Primary useism: 0.04 μm/s
Secondary useism: 0.77 μm/s
QUICK SUMMARY:
H1 had a bit of a day. What's new today from TJ---is that H1 is having trouble locking DRMI.
Microseism definitely continues to be the main culprit environmentally with (0.1-0.3 and 0.3-1.0Hz bands both being high and even increasing over the last 6-8hrs). Winds are now low and it is raining out.
Plan for the EVE shift is to continue with locking.
Plan for OWL shift (if locking woes continue), is to NOT set OWL shift alerts for the night, take ISC_LOCK to IDLE, and then I just touched base with RyanC about having him assess H1 locking about 4hrs after the EVE shift (~around 2AM). If locking looks better, continue locking, but if it continues to look dire, take ISC_LOCK to IDLE for the OWL shift .
TITLE: 11/07 Day Shift: 1530-0030 UTC (0730-1630 PST), all times posted in UTC
STATE of H1: Microseism
INCOMING OPERATOR: Corey
SHIFT SUMMARY: Two lock losses this morning, the first from the 1Hz ring up and the second most likely from PEM injections. We haven't been able to get back to low noise since, because the 0.1-1.0Hz seismic motion has risen in the past 6 hours to the point where we can't hold DRMI.
LOG:
| Start Time | System | Name | Location | Lazer_Haz | Task | Time End |
|---|---|---|---|---|---|---|
| 16:00 | FAC | Randy | Xarm | N | Caulking joints | 19:19 |
| 18:00 | SUS | Betsy | LVEA | N | Pre-LVEA C3 Cover Acquisition | 18:14 |
| 19:19 | FAC | Randy | Yarm | n | BTE sealing on Y2 | 23:13 |
| 19:41 | SYS | Betsy | Opt Lab | n | Poking her head in on things | 20:39 |
| 20:40 | PEM | Robert | LVEA | n | In and out to setup measurements | 23:36 |
| 21:49 | ISC | Keita, Rahul | Opt Lab | Local | Checking setup (Keita out 2239) | 00:27 |
| 22:21 | ISC | Sheila, Kar Meng | Opt lab | LOCAL | OPO spot finding | 23:59 |
| 22:39 | ISC | Sheila, Kar Meng | LVEA | n | Find BS near HAM6 | 23:09 |
| 23:01 | SPI | Corey, Ryan S | Opt Lab | n | Optics cleaning | 00:31 |
| 23:36 | CDS | Dave | H2 Build | n | Testing new DACs | 02:36 |
Most likely from PEM injections, HEPI BS seemed to trip first and then we lost lock 1.2 seconds later.
M. Todd, S. Dwyer, T. Shaffer
After the 1Hz ring up causing a lockloss we decided to move LOWNOISE_ASC to just before NLN and gave it a 5min timer before it goes and sets gains. This should hopefully give the IFO enough time to thermalize past MAX_POWER and keep the higher gains in the ASC loops until the 1Hz oscillation comes back down.
Jenne noticed the ADS lines were in NLN now because I moved LOWNOISE_ASC but did not take into account the ASC_ADS lines gain, which should not be turned on. Commented the "turning on" out in the guardian code.
Thu Nov 06 10:16:33 2025 INFO: Fill completed in 16min 29secs
Last checked in alog87617, Closes FAMIS27430
The OUT building fans look the same as during the last check.
The CS fans, MR_FAN1_170_{1.2} look to be ever so slightly increasing in motion over the past 3 days, the rest look just as they did during the last check.
TITLE: 11/06 Day Shift: 1530-0030 UTC (0730-1630 PST), all times posted in UTC
STATE of H1: Lock Acquisition
OUTGOING OPERATOR: Ryan S
CURRENT ENVIRONMENT:
SEI_ENV state: USEISM
Wind: 26mph Gusts, 19mph 3min avg
Primary useism: 0.06 μm/s
Secondary useism: 0.46 μm/s
QUICK SUMMARY:
IFO is LOCKING at LOCKING_ALS
Wind and microseism were high last night and microseism is still quite high and over the 90% threshold. H1 was finishing an automatic initial alignment when I arrived.
Relocking now.
TITLE: 11/06 Eve Shift: 0030-0600 UTC (1630-2200 PST), all times posted in UTC
STATE of H1: Observing at 19Mpc
INCOMING OPERATOR: Ryan S
SHIFT SUMMARY:
H1 was locked the entire shift. There was one quick drop due to an "automatic" PMC Voltage adjustment. Microseism is still high and mostly stable at same level for the last 20hrs.
LOG:
