Only CPS channels which look higher by eye at high frequencies (see attached) would be the following:

1. ITMx_ST1 V1
2. ITMx_ST2 V1
3. ETMx_ST1 V2
4. ETMx_ST1 H2
5. ETMy_ST1 H2

TITLE: 03/23 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: CALM
    Wind: 4mph Gusts, 2mph 3min avg
    Primary useism: 0.02 μm/s
    Secondary useism: 0.22 μm/s 
QUICK SUMMARY:

Arm (GV5/7), FC gate valves closed.  Cleanroom move this morning.  Lots of activity around the Y-Beam Manifold begins!

Sun Mar 22 10:03:10 2026 INFO: Fill completed in 3min 7secs

CP1 PT114 cold cathode gauge has come back to life, I've taken it out of the alarm bypass and enabled it in VACSTAT.

Sat Mar 21 10:09:41 2026 INFO: Fill completed in 9min 38secs

(Jordan V., Gerardo M.)

Yesterday we tried to hand over the pumping of HAM1 to the ion pump only, it did not go good, the ion pump started having issues maintaining pressure for HAM1 volume, this ion pump showed a very unusual behavior, the pressure was going up and the output of the controller kept going down.  We tried a second controller with similar results.  The controllers just quit and turned the high voltage off themselves, self protection/preservation.  Today, we went up to the ion pump and ohmed out its feedthrough fischer connector, and to our surprised no short was found, we were convinced that the pump had shorted.  So, we took a controller chamber side and connected it with a "short" cable to the ion pump, and the pump turned on without issues.  These findings lead us to believe that the cable may be faulty/shorted/broken/no good.

The temporary setup will be used to maintain the ion pump under vacuum, and the setup will remain until another suitable cable (working one) can be acquired and installed.

Attached are a couple of photos of the temporary setup and trend of the controller/pressure at HAM1 behavior during the last couple of days.

(Jordan V., Gerardo M.)

We hard closed GV5 with no issues, the gate valve hard closed at 30 psi.  Something to note is the loud clank the gate valve made, and when the valve hard closed it shook the cameras housing, probably the alignment is not what it used to be.

We tried to hard close GV7 but no luck, it soft closed only.  We slowly increased the pressure up to 35 psi, and the gate valve remained unchanged.  For the activities planed for Monday soft close is good, we will visit the GV7 on Monday.

Then, we moved to close the filter cavity tube isolation valves, we closed FCV-1, FCV-2, FCV-3, FCV-4 and FCV-5.  We also isolated the relay tube by closing RV-1 and RV-2, the filter cavity volume will likely go up in pressure.

Today we swapped the 75 l/s ion pump used for the annulus volume on the Y-Beam Manifold (YBM) . Annulus volume was isolated and the pump swapped, no issues encountered during the swap.

An aux cart was used to pump out the ion pump body before switching the IP on. After a couple hours of pumping with both the aux cart and the IP, the aux cart was isolated and the IP was able to maintain the pressure.

Closing WP 13107

This is a belated report of work done by me, Oli and Keita on the OMC builds for the BHSS, done yesterday March 19.

Exciting summary: build for OMCA is complete, including DCPDs and butter dish. OMCA is installed onto the BHSS platform and ready for beam alignment!

Less exciting summary: build for OMCB is halted as tombstone for DPCD A (transmission) is missing a required PCB hole for the electronic connection.

OMCA build notes:

• We picked up where we left off to complete the OMCA build (see 89562)
• We noticed some dust and metal bits on the surface of OMC breadboard glass. Some of the dust appeared yesterday during DCPD install- we think the install drops small metal shaving onto the glass. We're not sure if the rest of the dust was already there or got on it during our install work. Keita took an alcohol soaked q-tip and tried to remove many of the particulates
• We had some confusion about the overhang of the OMC breadboard on the cradle. Turns out it was because we didn't realize the side posts (stops?) had two different sizes. One set is 16 mm in width, the other 20 mm. With the appropriate 20 mm side post, the OMC breadboard can be placed up against the viton stop as detailed in the instructions without any overhang
• We installed the remaining side horizontal and vertical posts, and adjusted the screws with viton tips to the required distance from the breadboard
• We took out the butter dish for install and noticed all the dishes were very dusty. We took the one we planned for install over to the top gun and dusted it off. We will have to do the same for the OMCB butter dish. Again, not sure if they were already dusty or got that way during storage and handling
• We routed the PZT and DCPD cables through the cable clamp.
  • We are a bit concerned one of the PZT cables could fall into the beam eventually, but there's nothing we can do about it, picture, you can see that the cable is routed off the PZT, and over the beam path to where it is wound and mounted
  • the routing of the PZT cables crosses an area where there is a vertical viton stop. We're concerned the cables could be caught between the viton stop and the breadboard at some point. We removed the vertical post so we could run the cables along the side of the breadboard instead. There is enough clearance for the cables here. picture1, picture2
  • here are two other pictures of the cable routing and cable clamp, picture1 and picture2
• We went to install the butter dish and realized that the supplied pins which are inserted for install and then removed later don't even fit the holes.
  • the purpose of the pins is to elevate the butter dish slightly as it is clamped on either side by the viton-covered "grabbers" (don't know the word for them). the pins are removed once the dish is clamped
  • we decided since we were three people, two could hold up the dish while a third screwed on the viton holders
  • we can confirm by eye that the holes we would align with the pins are aligned from this process
• We used the empty OMCB cradle to practice the placement of the cradle onto the BHSS a few times before I picked up the entire OMCA assembly and gently placed it on the platform. It's a bit tricky because the finger slots on the cradle are sized for what appears to be very small fingers and the OMC assembly is quite heavy.
• Oli started working out how to place the OMC alignment template tooling, so the OMC can be properly aligned to the platform and screwed down

OMCB build notes:

• We unpacked the second OMC, SN 105 from its box and placed it and aligned it on the cradle
• Keita once again macgyvered a grounding anklet for me, and I set out to install the DCPDs
• I cut the legs of the first DCPD down by eye remembering how much to remove from yesterday and set out to install it onto the transmission PD tombstone (DCPD A we think)
• I spent 15 minutes fiddling around trying to get the diode through the hole (I actually watched the clock) before I exasperatedly looked into the faceplate holes and realized that through the bottom hole, there is no corresponding PCB hole for the leg of the diode! see picture. There are three holes on the faceplate, and you can see that for two they lead to holes in a PCB where the diode legs are inserted. There is no hole on the bottom.
• How did this happen? We are very confused and not sure what to do. We confirmed that the reflection tombstone has the expected three PCB holes after the faceplate holes. We can't proceed on the rest of the build and install before this is resolved.
• Keita thinks it is possible that the mount is rotated, and we could unscrew the component from behind the tombstone and flip it, but I would want to confirm with an expert before I start fiddling with it, especially if it could mess up the alignment

TITLE: 03/20 Day Shift: 1430-2330 UTC (0730-1630 PST), all times posted in UTC
STATE of H1: Planned Engineering
INCOMING OPERATOR: n/a
SHIFT SUMMARY:

No Locking Today.  There was some Squeezer alignment checks by sheila & tony.  Gerardo & Jordan CLOSED GV5 & 7 as well as Filter Cavity mini-gate valves.
LOG:

• 1448-1520 Moving spreader bar over Y-Beam Manifold in West Bay in prep for cleanroom moves next week---canceled this since it was 510lbs.  So Randy rolled a scissor lift into the lvea instead.
• 1450-1536 MY Technical cleaning (nellie)
  • 1552 LVEA Technical cleaning (nellie)
• 1532-1550 Turning on laser for SPI work (jeffK)
• 1603-1615 grabbing laptop in CER (tony)
• 1642 HAM8 FCES work (sheila,tony)
  • 1930 Lunch break
• 1710 SPI optics (jeff,bram)
  • 1943 lunch break
  • 2057-2313 Afternoon work continues.
  • Laser is OFF for the weekend
• 1756 Ion pump replacement @Y-beam manifold (gerardo,jordan)
  • 1925 lunch break
  • 2134 Afternoon work continues with checks of Ion Pump along YBM & then looking at an Ion pump on top of HAM1
• 1827 Pallet from Apollo for Jim received by Randy
• 2225 Starting to close GVs (5 & 7?)....then after coordinating with SQZ team (sheila,tony), VAC team will close GVs for Filter Cavity (gerardo,jordan)
  • 22:40:17 GV5 Hard Closed (red on medm);  Definitely heard this in the Control Room!
  • 22:51:20 GV7 Soft Closed (yellow on medm); Did not hear this in the Control Room
• 2225 Tony grabbing IR viewer and then...
  • 2230 Sheila joining and they will be looking at beams at ham shack
• 2226 EX grounding work 1hr(robert)

Also, CP1 PT114 tripped during the close of GV5, it has been disabled in VACSTAT and bypassed in ALARMS.

At 10:19:54 PDT both h1seib3 and h1seib1 had CRC errors on DAC leg zero.  These errors probably represent missing data blocks and not data corruption.

Fri Mar 20 10:19:50 2026 INFO: Fill completed in 19min 46secs

This is for FAMIS #39756.
Laser Status:
    NPRO output power is 1.839W
    AMP1 output power is 70.43W
    AMP2 output power is 139.3W
    NPRO watchdog is GREEN
    AMP1 watchdog is GREEN
    AMP2 watchdog is GREEN
    PDWD watchdog is GREEN

PMC:
    It has been locked 13 days, 15 hr 44 minutes
    Reflected power = 27.02W
    Transmitted power = 104.2W
    PowerSum = 131.2W

FSS:
    It has been locked for 0 days 3 hr and 56 min
    TPD[V] = 0.4857V

ISS:
    The diffracted power is around 4.3%
    Last saturation event was 0 days 20 hours and 40 minutes ago

Possible Issues:
    PMC reflected power is high

TITLE: 03/20 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: CALM
    Wind: 32mph Gusts, 27mph 3min avg
    Primary useism: 0.03 μm/s
    Secondary useism: 0.14 μm/s 
QUICK SUMMARY:

Moves starting in the lvea and in the schedule there is the possibility of closing Gate Valves today.  IMC_LOCK is DOWN and ISC_LOCK is in IDLE.  Had Lab dust alarm at 609am (due to cleaning?).

TITLE: 03/20 Eve Shift: 2330-0500 UTC (1630-2200 PST), all times posted in UTC
STATE of H1: Planned Engineering
INCOMING OPERATOR: None
SHIFT SUMMARY: Beam hunting at SQZT8 wrapped up and the FCES is back to Laser SAFE. Ground noise measurements and work in the optics lab finished as well.

Sheila asked for some plots to compare positions of SRM, OM1, and OM2 to have an idea of their SQZ beam pointing. The first attached screenshot shows the last time DRMI was locked this morning with WFS centering on, so the OMs are in their final positions. The second attached screenshot is from this evening when I took H1 into single-bounce configuration at 10W input power where SRM is misaligned and used the AS_CENTERING states in the ALIGN_IFO Guardian to align the OMs, then offloaded their positions to sliders. One could see that there are slight discrepencies in the alignment of the OMs when comparing their positions between the two scenarios, some of only tens of microradians and others up to 130 microradians in OM1_P's case.

LOG:                                                                           

The USGS stream was switched to a new service on March 16.  Seismon is now using the new stream.

TITLE: 03/19 Eve Shift: 2330-0500 UTC (1630-2200 PST), all times posted in UTC
STATE of H1: Planned Engineering
OUTGOING OPERATOR: Ibrahim
CURRENT ENVIRONMENT:
    SEI_ENV state: CALM
    Wind: 21mph Gusts, 16mph 3min avg
    Primary useism: 0.14 μm/s
    Secondary useism: 0.19 μm/s 
QUICK SUMMARY: SQZ recovery continues into the evening with beam hunting at SQZT8; no calls for any IFO locking attempts before arm gate valves are closed in the morning. A M5.2 EQ is rolling through from the Caribbean.