TITLE: 03/11 Eve Shift: 2330-0500 UTC (1630-2200 PST), all times posted in UTC
STATE of H1: Planned Engineering
INCOMING OPERATOR: None
SHIFT SUMMARY:
Comissioning team is leaving the IFO in Down tonight due to mis alignment somewhere between the Power recycling cavity and JAC ~ 1:25 UTC.
Camilla, Betsy, Oli
We've made some good progress the last couple of days for the BHSS.
Yesterday I moved the four tiny BHSS beam dumps onto the center of the BHSS next to the BHSS optics. I then carefully wrapped up the BHD sled and table optics mounts (who still don't have optics in) to make some more space on the table. Each mount was gently double wrapped individually in foil, with the mounts with black glass being covered with an optics cloth. Then I grouped and wrapped everything into four big packs: sled lens mounts, sled mirror mounts, table lens mounts, and table mirror mounts. These packs were put aside and left a lot more room on the table. Tomorrow we will double bag and label them to get them off the table.
This morning Betsy and I went into the Triples Lab and glued the viton tips to the OMC cradles and the screws, and those are in the oven and will be taken out tomorrow morning.
Yesterday I also discovered that the BHSS Alignment Tooling Plate (D2400074) needed to be helicoiled, so today I helicoiled it and then put it together on the BHSS. After installation, I needed to remove it and the supporting posts (D2400117), and when trying to reinstall the posts I discovered that one had been gouged and I couldn't get the screws in very far. I was able to get a screw in the other post (proving that it wasn't the screw), and then this post also got messed up. I ended up just standing one of the support posts under where it needed to be. The other post was too loose under the tooling plate (we probably need to loosen a couple of the earthquake stops on one side of the BHSS), so Camilla jigged up a washer + longer set screw combo that held onto the plate and the little amount of the post that wasn't messed up.
We turned on the laser and measured the power before and after the fiber. Before the fiber was 4.5mW and directly after was 1.83mW. With this power we did some rough beam alignment and were successfully able to get the beams to the second iris along each path (layout pic). Tomorrow we do fine-tuning.
TITLE: 03/10 Eve Shift: 2330-0500 UTC (1630-2200 PST), all times posted in UTC
STATE of H1: Planned Engineering
OUTGOING OPERATOR: Ryan C
CURRENT ENVIRONMENT:
SEI_ENV state: CALM
Wind: 17mph Gusts, 13mph 3min avg
Primary useism: 0.03 μm/s
Secondary useism: 0.29 μm/s
QUICK SUMMARY:
There is a concentrated effort to integrate & align JAC into the IFO.
Camilla wrote up some quick locking notes up to 00:00 UTC
Currently working out PR alignment.
(Jordan V., Travis S., Gerardo M.)
The new purge air compressor, Kobelco KN-0, developed a very small leak a few weeks ago, it was first noted on 1/30/2026, I notified the vendor the same day. About a week later they sent a technician over, the technician did diagnosis of the unit and determined that the unit was leaking oil. The leak was located at the oil pump body, and after a conversation with his supervisor they decided to replace the pump "because some of them just leak from the start". But they needed to order the pump and it was going to take a few weeks. Also, due to an active vent, we decided to continue using the system as it was. But, we did increased our visits to the unit to twice daily.
This is an excerpt from the report regarding the leak:
"INSPECTED UNIT AND DISCOVERED LEAKS OUT OF 3 DIFFERENT LOCATIONS IN
THE OIL PUMP HOUSING. APPROXIMATELY 3-4 OUNCES OF OIL WAS IN THE
BOTTOM OF THE CABINET, BUT NO ACTIVE DRIPS WERE VISIBLE. JUST RESIDUE
ON SEAL LOCATIONS AND A PUDDLE DIRECTLY BELOW."
Fast forward to today (3/10/26), two technicians showed up to replace the oil pump, no issues were encountered during the replacement. Due to the leak and the oil pump replacement the oil was a bit low, the technicians topped the unit with oil.
This is an excerpt from the report regarding the oil pump replacement:
"TRIP 2: OIL PUMP REPLACEMENT ON ABOVE KNW 0. REMOVED OLD PUMP WITH
LEAKING SHAFT, REMOVED FITTINGS AND PLACED FITTINGS ON NEW PUMP.
REPLACED THE COUPLING AND ENSURED PROPER DISTANCE TO MOTOR
COUPLING ELEMENT. TOPPED OFF OIL LEVEL.TIGHTENED ALL FITTINGS, HOSES
AND BOLTS. TEST RAN UNIT FOR PROPER CYCLING AND LEAKS FOR 30 MINUTES.
TOOK READINGS - LEFT UNIT OFF."
The compressor is now off. Closing WP-13081
Ryan C, Sheila, Jennie, Jenne, Camilla, Ryan S, Daniel
Ryan got the green arms locked and then Sheila and I went on ISCT1 to improve the COMM and DIFF beatnotes, to +2dB and -10dB.
Dave and Ryan fixed a ISC_LOCK Channel not found error.
Sheila then aligned MITCH and started to check the phasing using 'ndscope sheila.dwyer/ndscope/LSC/phase_LSC_9_and_45.yaml'. Comparing to November, screenshot attached. First AS_A_RF45 was rephased after WFs were centered, needed +90deg. See sdf's attached. All LSC 45's were then phased following the same +90deg. Check REFL 9 with a swinging MICH and decided it was close enough. No LSC RF9's were changed.
There were some pauses for JAC table work.
Ryan then re-ran green initial alignment (wasn't done this AM), checked beatnotes were still fine. Jenne, Jennie and Sheila locked ALS and locked MICH.
Sheila needed to revisit PRX alignment as struggling to find POP beams.
Jenne realized the mode cleaner isn't using DOF3, it used to feedback to the PZT, but now needs to feedback to JM3.
Daniel did the IMC phasing of WFs.
I put IM2 and 3 back to their values on the 12th December when we were doing manual initial alignment.
LSC_POP_A and LSC_REFL_A were close to their values on 12 December (when ALIGN_IFO was in state 35). I put the RM 1 and 2 mirrors back to there values at this reference time also.
After Jennie put IM2 back to where it had been, we re-moved IM3 to get roughly back to where we'd been on IM4 trans, and then IM4 to get back to where we'd been on ASC POPA and POPB QPDs.
We could then move PRM to align PRX, and lock PRX just fine. However, we still don't have any significant signal on the ASC REFL WFS. RyanS noticed that when we were re-aligning PRM, that we'd get a flash of light on ASC REFL B. So, we moved PRM around and found that we can get a good amount of light (almost 4000 counts) on ASC REFL B with an offset on PRM of -1000 counts in yaw. This is a *huge* number, so something is clearly wrong with the pointing of our incoming beam. We could get a bit of light on ASC REFL A, but only as much as ~4 counts (so, 1000x too small) no matter how much we moved PRM, RM1, and RM2. The RMs we moved until they were saturating, so it's not their fault - there's just something we don't understand yet about the input pointing.
One thing this means (among other reasons we're not powering up yet) - we want to hold off on going to more than 10W or so until we're sure that the PRM refl beam is going to be hitting the porcupine beam dump on top of HAM2.
(Sheila has some other notes on other things we did today).
Next steps: *shrug*. We're pretty sure that all of the input pointing optics are back to where they were in ~Dec. The IMC is aligned to where it had been, via the WFS and centering on MC2 trans, so we're probably fine up to there. Anyhow, next steps are still figuring out where our REFL and POP beams are going, since it's not to the PDs.
Jennie W, Jenne D
We need to check the positions of IM1 and 2 as we have now closed all 3 loops for the IMC alignment.
Jenne was windering how our input alignment to the IFI compares to before the vent.
We compared the IM 1 and 2 pitch and yaw positions in manual initial alignment between today and the 12th of December - when we were doing our last locking before the vent.
This comparison is during manual initial alignment which is state 8 in the ISC_LOCK guardian.
The first pic is the 12th December, reference time is 05:21:30 UTC.
The second pic shows today with y cursors at the reference values. The biggest difference is IM2 pitch which is ~120 counts lowewr than it was, the other 2 DOFs are tens of counts off.
I also included IM3 and 4 in my plots but I think we have intentionally changed IM3 since the vent to improve alignment onto IM4 trans and IM4 is controlled.
TITLE: 03/10 Day Shift: 1430-2330 UTC (0730-1630 PST), all times posted in UTC
STATE of H1: Planned Engineering
INCOMING OPERATOR: Tony
SHIFT SUMMARY: Alignment work today, green arms, Xarm IR, MICH, PRX alignment is being worked on as of the end of day shift.
LOG:
| Start Time | System | Name | Location | Lazer_Haz | Task | Time End |
|---|---|---|---|---|---|---|
| 15:09 | FAC | Nellie | MidY | N | Tech clean | 15:30 |
| 15:28 | ALS | Sheila, Camilla | LVEA | LOCAL | ISCT beatnote alignment, Camilla turn on CO2 and SQZ lasers | 16:07 |
| 15:54 | FAC | Kim, Nellie, Randy | LVEA | N | Move clean room, N bay to W bay, K/N out 16:19UTC | 16:42 |
| 15:56 | BHD | Oli | Optics lab | LOCAL | Parts search / checks | 16:26 |
| 16:09 | FAC | Tyler+Contractors | Site | N | Fire inspections | 20:36 |
| 16:21 | EE | Marc | CER | N | Check on cables, measure video cable | 17:12 |
| 16:43 | FAC | Randy | EndY | N | Checks | 17:13 |
| 16:52 | SEI | Jeff | Optics lab | LOCAL | SPI | 19:24 |
| 17:02 | BHD | Oli | Optics lab | LOCAL | Helicoil HXDS alignment tooling | 17:52 |
| 17:15 | EE | Marc | Mech room | N | Turn on SQZ HV | 17:21 |
| 17:20 | FAC | Eric | OSB | N | Shut off AH 4 - offices | 17:38 |
| 16:40 | FAC | Kim | HAM Shaq | N | Tech clean | 17:23 |
| 17:23 | FAC | Kim | MidX | N | Grab supplies | 17:45 |
| 17:27 | TCS | Sophie | Prep lab | N | CHETA work | 19:32 |
| 17:30 | ISC | RyanS, Jennie | LVEA | LOCAL | HAM1 JAC table work | 18:50 |
| 17:45 | FAC | Kim | EndX | N | Tech clean | 18:45 |
| 18:04 | EE | Marc | LVEA | LOCAL | Check on JAC cable | 18:18 |
| 18:39 | SEI | Jim | LVEA, then optics | N | HAM6, move parts to optics lab | 18:50 |
| 19:04 | ICS | Sheila, Jennie, RyanS | LVEA HAM1 | LOCAL | JAC work | 19:17 |
| 19:41 | ISC | Sheila, RyanS | LVEA HAM1 | N | JAC table measurements | 19:52 |
| 19:55 | FAC | Kim | LVEA | N | Stock garb | 20:28 |
| 20:27 | BHD | Oli | Optics lab | LOCAL | BHSS work | Ongoing |
| 20:31 | EE | Marc | MidY | N | Get cables | 21:30 |
| 20:36 | FAC | Tyler | Beamtube | N | Install new speed limit signs | 21:36 |
| 21:00 | VAC | Jordan | LVEA, Ybeam manifold | N | Anulus ion pump troubleshooting | 21:48 |
| 21:28 | ISC | Jennie | LVEA | LOCAL | ISCT1 table beam check | 21:48 |
| 22:08 | SEI | Jeff | Optics lab | LOCAL | SPI | 23:12 |
| 22:17 | BHD | Camilla | Optics lab | LOCAL | BHSS | Ongoing |
| 22:48 | TCS | Sophie | Prep lab | N | CHETA work | Ongoing |
Jenne Driggers, Jennie Wright, Sheila, Ryan Short, Ryan Crouch, Tony
We are running all three IMC ASC DOFs. Jenne turned on DOF3 pitch without issue once she set up the feedback through JM3. The YAW DOF was unstable, we checked the output matrix for yaw. With the gain increased on DOF1+DOF2 we put 10 couns on JM3 pitch test, and measured the responses on MC1, MC2, MC3 outputs from the IMC ASC. (screenshot attached). We scaled these responses to give us the new output matrix, this worked well once we flipped the sign. We accepted these changes in SDF so they should be used everytime the IMC locks from now on.
In the process we remembered that IMC ASC has the intergrators in the asc model, not the suspensions.
Turned laser on first thing and Marc turned on the SQZ High Voltage in the Mech room mezzanine 89449, the PMC and SHG looked without issue. I turned back on the SFI1, SFIO2 and OPO TEC servos (were turned off for venting).
Segment 3 of H1:SQZ-RLF_QPD_A_SEG_3 is broken 89020, so we will need to decide what to do about that but I didn't do anything yet.
Increased SEED light from 0.5mW to 75mW, then LOCKED_SEED_DITHER, power was then 0.1 mW on SQZT7, previously ~2mW. Checked QPD B, power now 13nW, previously 130nW, for similar CLF_TRIG reflected power. see attached. Can try to realign via QPD_B and ZM2,3 but have not yet done this.
Changed OPO temp from 31.72 to 33.703 while injecting CLF and scanning the OPO PZT to coalign green and IR peak (Sheila said SEED may have been quicker).
OPO with CLF still didn't lock. With H1:SQZ-OPO_PZT_1_SCAN_TRIGGER_CHANNEL_1_LEVEL and 2_LEVEL reduced from 0.5 to 0.1 and it debatably locked looking at H1:SQZ-OPO_IR_RESONANCE_CLF_RF but with no signal on H1:SQZ-OPO_IR_PD_DC_POWERMON... maybe the alignment is just very bad.
Pausing here.
I was looking at the correlated spectra of the IMC WFS segments and minimizing the q-signals.
Attached: screenshot of new values and spectra.
I made a template to check this phasing, it's in userapps/ioo/h1/dtt/IMC_wfs_phase.xml
Also, we used to use LSC_EXTRA_AO_2 for putting excitations into the common mode or IMC board, that channel still exists but it is now used for JAC locking. So, instead we should use EXTRA_AO_3 from now on.
With the new EOM we used a single bounce scan of the OMC to measure the modulation depths of the 9 and 45 MHZ signals as we will need them to lock the IFO now we have the IMC lock working.
Old values: New values:
gamm9 = 0.213 gamma9 = 0.235
gamma45 = 0.275 gamma45 = 0.285
For a reference for the old measurements see this alog from Elenna (#81816) and this alog from me for new ones (#89230).
PSL Weekly Status Famis 39755
Laser Status:
NPRO output power is 1.824W
AMP1 output power is 70.51W
AMP2 output power is 138.9W
NPRO watchdog is GREEN
AMP1 watchdog is GREEN
AMP2 watchdog is GREEN
PDWD watchdog is GREEN
PMC:
It has been locked 3 days, 21 hr 16 minutes
Reflected power = 26.77W
Transmitted power = 104.3W
PowerSum = 131.1W
FSS:
It has been locked for 0 days 0 hr and 52 min
TPD[V] = 0.4982V
ISS:
The diffracted power is around 3.9%
Last saturation event was 0 days 12 hours and 57 minutes ago
Possible Issues:
PMC reflected power is high
Tue Mar 10 10:07:31 2026 INFO: Fill completed in 7min 28secs
I inspected the IO chassis and AI chassis in all four racks and noted the following:
SUS-C1
U30-U31 AI chassis pair, these chassis were configured for clip style scsi cables, but screw style were installed. This should be changed when we vent in 2 weeks.
SUS-C2
H1SUSAUXB2H34 - All jack screws are installed, all cables are secure.
H1SUSB2H34 - All jack screws are installed, all cables are secure.
SUS-C3
H1SUSH2AUX - All jack screws are installed, all cables are secure.
H1SUSH12 - All jack screws are installed, all cables are secure.
SUS-C4
U29-U30 AI chassis pair, these chassis were configured for clip style scsi cables, but screw style were installed. This should be changed when we vent in 2 weeks.
There are no remaining critical issues at this time, so closing WP12079
We turned on the HV for SQZ. The power is located in the racks on the Mezannine in the Mechanical Room.
We followed Fil's instruction by first turning on the 24V for the interlock chassis, then ensuring the bypass was removed, sensor plugged in, and pressing the red reset button.
Then we switched on the SQZ_PZT and the SQZ_TTFSS power.
M. Pirello, C. Compton, S. Muusse
Turned on SQZ laser, CO2 lasers and TCS Sleds. All came on fine.
Sheila, Ryan C, Ryan S, Marc, Daniel, Oli, Control Room...
During the morning, Sheila and Ryan struggled again with the IMC locking. Lots of trending and adjusting gains and signs. The IMC OLG looked noisy and the IMC could stay locked for ~1minute without SUS feedback but not with feedback. The MC1 DAC card was swapped 89426, 89427 and new transfer functions showed this was better than Friday 89435, however IMC still wouldn't stay locked. Daniel, Ryan and Sheila then realized that MC2 M2 was not actuating and Marc and Oli tracked this down to a loose cable 89434, 89436. Oli opened FRS ticket: 37180.
After this was fixed, Sheila started editing the guardian to remove temporary fixes and remeasured the IMC OLG, see attached. This now looks good, 38.5kHz UGF is with 2W into the IMC, gain 5, one common boost on, which is as old guardian would have set it, except M1 feedback is still off. This was compared to 89046 Feb measurements. IM4 trans is 1.2W which is a little lower than before the JAC install.
After the VAC team decoupled the AUX carts by HAM1/2, Jim unlocked the HAM2 HEPI.
Ryan C locked the green arms using INTIAL_ALIGNMENT_OFFLOAD as Jenne reset those references last week 89385.
After HAM2 was unlocked, we struggled to turn on the MC2 M2 feedback, however the IMC was surprisingly stable with only the M3 and laser feedback, Sheila took IMC-MCL crossovers. It's a strange loop as M2 isn't really doing anything so Sheila tried copying the PRCL M2 filters over to actuate via M1, this didn't work.
Sheila turned on the IMC WFS, this worked well and brought IMC_TRANS from 180 to 200. Then they were offloaded using the guardian (not the smoothest offloading). After the WFS were offloaded, we reset the guardian to include both M1 and M2 feedback and it worked.
The IMC-MCL crossover was re-measured to be on it's reference, see attached.
The UGf that Camilla posted above (38.5kHz, with 2W input power before JAC and 5dB gain on IMC IN1) implies that the modulation depth for the IMC is about the same or slightly higher than it was before the JAC installation. See 89046 which was before the EOM crystal swap).
After the IMC was locked, Sheila mentioned for tonight there was not alot which could be done (the next steps would be phasing for sensors out on the In-Air Tables, and after that we could move on to locking DRMI). But wanted to look at the BS & PR3 alignment. Before doing that, we did a quick alignment of the Green Arms (to make sure the ITMs were aligned).
While looking at AS_AIR camera the spot was on the camera but off to the right. So, SR2 was moved (mostly in yaw) to get the spot halfway centered on the camera (actually we had two spots here); the BS was used to then get the two spots (one from each arm) on top of each other and centered on the camera. At this point, Sheila mentioned the beatnote looked ok. Sheila also trended PR3 and said its alignment looked good too.
For the night, the rotation stage is will stay at 2W and the IMC is locked. We don't want the PSL to go over 2W, until protections for JAC are in place (trigger PD install on the In-Air JAC/IOT1 table?). And for H1 recovery tomorrow, work will continue for moving on to DRMI locking and beyond.
