Displaying reports 1-20 of 87335.Go to page 1 2 3 4 5 6 7 8 9 10 End
Reports until 13:55, Wednesday 15 April 2026
H1 ISC
marc.pirello@LIGO.ORG - posted 13:55, Wednesday 15 April 2026 (89905)
EX Kepco Power Supply Replaced

Following up on this report ALOG89822 and this work permit WP13164 we replaced two Kepco Power Supplies at EX.  These supplies source power to ISC and TCS racks in the EX CER room.

The +/- supplies were still running but the fan on the -18V supply had siezed up, and the supply was overheating.  The +18V supply seemed ok, but when I turned them both off it would not restart.

The +18V supply is now S1201904 has improved fan installed.
The -18V supply is now (no serial number) has improved fan installed.

Both supplies were set back to their original voltage configurations and power sequenced back on, this was completed yesterday afternoon.  The pulled supplies will be upgraded with new fans and placed back into spares inventory.

H1 PSL
ryan.short@LIGO.ORG - posted 13:48, Wednesday 15 April 2026 (89904)
PSL 10-Day Trends

FAMIS 31133

On Friday, h1psl0 was rebooted as part of updates to its timing card firmware and RCG (see alog89859), which unlocked the PMC briefly and left the ISS off (on purpose, the autolocker is turned off in SDF so that it can be turned on later once the PMC thermalizes). It looks like the PMC (as usual) relocked at a slightly different temperature; it doesn't appear to have much effect this time on the transmitted power, but the reflected power is very slightly lower. I've turned the ISS autolocker back on.

Images attached to this report
H1 CDS
david.barker@LIGO.ORG - posted 10:48, Wednesday 15 April 2026 (89903)
Subversion server down for upgrades

Nyath, Jonathan:

Nyath has started the upgrade of the subversion repository server. This service will be down for a few hours.

LHO VE
david.barker@LIGO.ORG - posted 10:16, Wednesday 15 April 2026 - last comment - 10:19, Wednesday 15 April 2026(89901)
Wed CP1 Fill

Wed Apr 15 10:09:01 2026 INFO: Fill completed in 8min 58secs

 

Images attached to this report
Comments related to this report
david.barker@LIGO.ORG - 10:19, Wednesday 15 April 2026 (89902)
Link

The alog LOG-OUT has a problem, Jonathan is working on a solution.

LHO General
ibrahim.abouelfettouh@LIGO.ORG - posted 08:02, Wednesday 15 April 2026 (89896)
OPS Day Shift Start

TITLE: 04/15 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: MAINTENANCE
    Wind: 14mph Gusts, 8mph 3min avg
    Primary useism: 0.03 μm/s
    Secondary useism: 0.25 μm/s 
QUICK SUMMARY:

IFO is in IDLE for MAINTENANCE

Today the main task is to remove the BSC Dome and continued FARO work.

H1 CDS
david.barker@LIGO.ORG - posted 23:27, Tuesday 14 April 2026 - last comment - 23:27, Tuesday 14 April 2026(89892)
Testing Alog timestamps

This entry made at 16:27 PDT

Comments related to this report
jonathan.hanks@LIGO.ORG - 16:30, Tuesday 14 April 2026 (89893)
Link

The default timezone has been corrected.

H1 SUS
ibrahim.abouelfettouh@LIGO.ORG - posted 23:24, Tuesday 14 April 2026 (89891)
ITMY ITMX and BS Oplev Trend since last DRMI

Attahed and in the table below are oplev positions for ITMY, ITMX and BS since last DRMI lock on 03/19/2026 at 11:02 PDT

  DRMI Locked Reference Latest
  11:02 PDT 03/19/26 15:00 PDT 04/14/26
BS P Oplev 2.10 0
BS Y Oplev -25.92 0
BS Sum Oplev 20215.30 19605.8
IX P Oplev -10.70 -3.64
IX Y Oplev 5.10 -1.2
IX Sum Oplev 3188.52 4.7
IY P Oplev -26.65 42.5
IY Y Oplev -3.22 22.92
IY Sum Oplev 7904.27 4731.59

Note 1: The BS Oplev Damping loops were still on during some FARO work and were shaking the BS. We turned these off on morning of April 14.

Note 2: The right-most T-cursor marks the corner-station vent

Images attached to this report
LHO General
nyath.maxwell@LIGO.ORG - posted 20:50, Tuesday 14 April 2026 - last comment - 20:58, Tuesday 14 April 2026(89889)
A-Log server updated to Debian 12 - Bookworm 
Alog server updated to Debian 12 Bookworm.
Comments related to this report
nyath.maxwell@LIGO.ORG - 20:58, Tuesday 14 April 2026 (89890)
Link 

SVN will be completed tomorrow (4-15-2026)
H1 General
jonathan.hanks@LIGO.ORG - posted 20:47, Tuesday 14 April 2026 (89888)
WP 13174 updated h1dmt login server to Debian 13.

As per WP 13174 I updated the OS on the h1dmt login system to debian 13.  No DMT/GDS services were changed, only the login box.

H1 TCS
madison.simmonds@LIGO.ORG - posted 16:50, Tuesday 14 April 2026 (89885)
Changed fibre for EX HWS

Madi, Camilla, TJ 

Images attached to this report
LHO General
ibrahim.abouelfettouh@LIGO.ORG - posted 16:46, Tuesday 14 April 2026 (89894)
OPS Day Shift Summary

TITLE: 04/14 Day Shift: 1430-2330 UTC (0730-1630 PST), all times posted in UTC
STATE of H1: Planned Engineering
INCOMING OPERATOR: None
SHIFT SUMMARY:

IFO is in IDLE for MAINTENANCE

Very productive day in which BSC2 FARO work continued (and is ongoing but almost done). Cleanroom was moved to the biergarten. Prep for dome removal finalized. CEBEX was on-site at MY.

LOG:

Start Time System Name Location Lazer_Haz Task Time End
14:55 FAC bubba, C&E MY N Trenching? 01:55
14:55 FAC Kim, Nellie LVEA N Technical Cleaning 15:37
15:14 FAC Chris + Pest-guys LVEA, Tubes N Debugging 19:14
15:15 IAS Ryan C LVEA N Warming FARO 15:23
15:29 FAC Randy, TJ LVEA N Garb room location inspection 15:43
15:36   Camilla Optics Lab N Inspecting optics 19:23
15:37 FAC Kim, Nellie LVEA N Technical cleaning 16:22
15:44 FAC Randy LVEA N Moving stuff around 16:21
16:04 CC TJ, Jordan LVEA N Check out garbing situ 16:11
16:12 VAC Jordan LVEA N' Vacuum inventory 16:14
16:16 EE Fil, Corey LVEA, FCES' N West Bay cameras 19:04
16:17 IAS Jason, Ryan C LVEA N FARO BSC2 00:07
16:21 SEI Jim LVEA N Locking ITM Baffles 18:37
16:34 VAc Jordan LVEA N cp1 staging parts 20:49
16:43 ICS Jeff Optics Lab N Searching for part 17:30
16:44 FAC Randy LVEA N Craning clean room 17:40
16:44 FAC TJ LVEA N Craning clean room 17:40
16:50 VAC Gerardo LVEA N Cleanroom move 17:29
17:02 VAC Travis LVEA N Checking on Gerardo and Jordan 20:01
17:21 Marc Marc EX N Swapping power supply 19:02
17:42 FAC Randy EX, EY N Looking for a spreader bar 19:47
18:03 FAC Kim LVEA N Technical Cleaning 19:02
19:13 epo jennie.disha.guest lvea n lvea tour 19:47
19:15 pem robert EX - grounding studies 00:03
19:36 fac randy.tyler EY - grabbing bsc spreader bar 20:37
20:34 ee fil MER - pull sus cables 23:34
20:50 sei jim bsc2 - stickman duties for FARO 23:36
20:56 OPS TJ LVEA N Battery delivery 21:01
H1 General (CDS)
filiberto.clara@LIGO.ORG - posted 11:00, Tuesday 14 April 2026 - last comment - 07:26, Wednesday 15 April 2026(89887)
Camera installed in West Bay

WP 13172

A PTZ camera was installed on the cable tray support near the LY Vacuum rack. Camera is connected to the FCES juniper switch (Access, port 12) via fiber to network converters. This will help document BSC2 dome and cartridge removal.

F. Clara, C. Gray, R. McCarthy

Comments related to this report
corey.gray@LIGO.ORG - 07:26, Wednesday 15 April 2026 (89895)
Link

Photo of camera looking toward the Biergarten.

Images attached to this comment
H1 TCS
matthewrichard.todd@LIGO.ORG - posted 09:53, Monday 08 December 2025 - last comment - 10:00, Wednesday 15 April 2026(88413)
Weekend HWS transients

M. Todd, S. Dwyer, J. Driggers

Summary

Measurement Value [uD / W] Notes
Ring Heater Coupling to Substrate Lens -21.0 +/- 0.3 relative to modeled coupling, 79 +/- 1 % efficiency compared to
predicted 75-80% efficiency from arm cavity measurements.
Modeled couplings assuming 100% efficiency report around -26.5 uD/W.
SR3 Heater Coupling to Substrate Lens

ITMX HWS: 4.7 +/- 0.2

ITMY HWS: 4.6 +/- 0.1

 The ITMX HWS seems to be noisier than ITMY, but give very similar mean estimates.
The estimate from Gouy phase measurements is around 5.0 uD/W.

We turned on inverse ring heater filters to speed up the heating for those (using nominal values for the settings). Because of the weekend mayhem with the earthquakes we did not get a SUPER long HWS transient measuring the full response, but we could get a pretty good estimate of the ring heater effect on the substrate thermal lens without any other heating in the measurement. This is good to compare to modeled values that we have.

I also turned on SR3 heater on Sunday to get estimates of the coupling of SR3 heating to the defocus of SR3. To do this, Jenne helped me untrip a lot of the SU watchdogs for the relevant optics to the HWS. About 3 hours after the SR3 was turned on the watchdogs must have tripped again and misaligned the optics. But fortunately we got the cooldown data for this as well and it's all pretty consistent. These measurement suggest a 4.7 uD/W coupling for SR3 heating, which is very similar to modeled coupling from Gouy phase measurements at different SR3 heater powers.

Overall, while these measurements provide more pieces to the puzzle, they make previous analyses a bit more confusing, requiring some more thought (as usual).

Images attached to this report
Comments related to this report
sheila.dwyer@LIGO.ORG - 10:00, Wednesday 15 April 2026 (89900)
Link

In the estimates for SR3 heater above, Matt is using the requested power on SR3 to do the estimation, which is higher than the reported power.  

For both the October 2019 Gouy phase measurement and for the December 2025, the SR3 requested power was 4 W while the readback power was 3.2W.  

I used the same cool down time that Matt used above, reading 38uD change in spherical power from the X HWS and 34.5uD, if we use the reported power change of 3.2W we get 5.9 uD/W reported by HWS X and 5.4uD/W reported by HWS Y.  

H1 ISC
matthewrichard.todd@LIGO.ORG - posted 10:58, Tuesday 18 November 2025 - last comment - 09:34, Wednesday 15 April 2026(88155)
Summary Table of OMC Scan and Gouy Phase measurements

M. Todd, J. Wright, S. Dwyer

Here is my attempt to summarize as many of the OMC scan measurements of the input beam overlap with the OMC mode, as well as PRC and SRC gouy phases -- all at different thermal states.

Measurement Time Test Masses CO2 [W] Ring Heater (per segment) [W] SR3 [W] OM2 [W] FOM aLOG
OMC Scan - Single Bounce off of ITMY 1443895154 Cold 0 0 0 0 Mismatch = 8.3% 87461
OMC Scan - Single Bounce off of ITMX 1443894875 Cold 0.45  0 0 Mismatch = 10.4% 87461
OMC Scan - Single Bounce off of ITMY 1443889943 Cold 1.7 0 0 0 Mismatch = 10.3% 87461
OMC Scan - Single Bounce off of ITMX 1443894875 Cold 1.7  0.45  0 0 Mismatch = 13.5% 87461
OMC Scan - Single Bounce off of ITMY 1431450536 Cold 0 0 5 0 Mismatch = 7.6% 85661
OMC Scan - Single Bounce off of ITMY 1403543046 Cold 0 0 0 4.6 Mismatch = 6.6% 78701
OMC Scan - Single Bounce off of ITMX 1431449762 Cold 0 0.45 5 0 Mismatch = 9.6% 85661
OMC Scan - Single Bounce off of ITMY 1431474471 Cold 0 0 5 4.6 Mismatch = 3.1% 85698
OMC Scan - Single Bounce off of ITMX 1431474101 Cold 0 0.45 5 4.6 Mismatch = 5.1% 85698
OMC Scan - Single Bounce off of ITMY 1444515634 Hot-ish 1.7 0 0 0 Mismatch = 7.1% 87461
OMC Scan - Single Bounce off of ITMX 1444515312 Hot-ish 1.7 0.45 0 0 Mismatch = 8.9% 87461
OMC Scan - SQZ Beam 1446952255 - - - - 4.6 Mismatch = 6.8% 88060
OMC Scan - SQZ Beam 1447088389 - - - - 0 Mismatch = 2.8% 88088
Gouy Phase - PRC 1255227492 Cold ITMY = 0.9, ITMX = 0.8 ITMY = 1.4, ITMX = 0.5 0 0 OneWay Gouy Phase = 23.2 [deg] 52504
Gouy Phase - PRC 1354415805 Cold 0 0 0 0 OneWay Gouy Phase = 20.7 [deg] 66215
Gouy Phase - SRC 1354410195 Cold 0 0 0 0 OneWay Gouy Phase = 19.9 [deg] 66211
Gouy Phase - SRC 1255907203 Cold ITMY = 0.9, ITMX = 0.8 ITMY = 1.4, ITMX = 0.5 0 0 OneWay Gouy Phase = 25.5 [deg] 52658
Gouy Phase - SRC 1255829128 Cold ITMY = 0.9, ITMX = 0.8 ITMY = 1.4, ITMX = 0.5 4 0 OneWay Gouy Phase = 29 [deg] 52641

 

Comments related to this report
sheila.dwyer@LIGO.ORG - 09:34, Wednesday 15 April 2026 (89898)
Link

The measurements made with SR3 hot in May 2025 were done with SR3 heater requested power set to 2W, the readback of reported power was 1.9W.  The lines in the table that say 5W for SR3 power should say 2W.

H1 TCS (ISC, SQZ)
jennifer.wright@LIGO.ORG - posted 16:33, Monday 04 August 2025 - last comment - 09:43, Wednesday 15 April 2026(86184)
Calculating curvature of SR3 when heated up by 2W.

Jennie W, Camilla C

 

A while ago we heated up then cooled down the SR3 heater (alog #84749).

As part of measurements using this data I calculated the curvature change, following the approach at LLO by Aidan given iin alog #27262. Matlab code is below.

 

%calculate SR3 spherical lens

Pin = 2;%W

double_pass = 2;

SR3_t = (3*3600) + (11*60); % Time for cooldown in s.

delta_ITMY = -2.67e-5;% decrease in defocus of ITMY according to Hartmann sensor.

D_ITMY = delta_ITMY./double_pass;% defocus change in Dioptres

D_ITMY_error = 5e-6;% error on defocus in Dioptres.

R_SR3 = 36.013;% cold radius of curvature in m

delta_R = (2./((2/R_SR3)+D_ITMY))-R_SR3; % change in curvature during cooldown in m/

delta_delta_R = D_ITMY_error.*(2./((2./R_SR3)+D_ITMY)); % error on curvature change.

 

This means the rate of defocus change is 6.6750uD per Watt.

The final curvature change is + 0.0087 m +/- 0.0002 m as the mirror becomes less curved due to cooldown.

 

Comments related to this report
sheila.dwyer@LIGO.ORG - 09:43, Wednesday 15 April 2026 (89899)
Link

In 84749Camilla had a look at the HWS images from these times, and I think her conclusion is that we shouldn't trust the reported spherical powers that Jennie is using above to estimate the curvature change.  Matt later redid a HWS measurement using the SR3 heater heater, in 88413, we can use the value from that alog for uD/W instead and scale that to the power used here.\

In the time that Jennie is using above, the SR3 heater is set to 2W requested power, but the power readback reports 1.9W.  

H1 ISC
jennifer.wright@LIGO.ORG - posted 10:33, Friday 16 May 2025 - last comment - 08:58, Wednesday 15 April 2026(84432)
OMC scans with SR3 heater on

Jennie W, Sheila, Elenna

 

In order to get data for mode-matching and for Elenna to get data to calibrate sideband heights we ran some mode scans after the SR3 heater was turned on last night.

16:55:24 UTC Carried out single bounce OMC scan at 10W PSL input with sensor correction on HAM6 on, high voltage on for PZT driver in HAM6, sidebands off , SRM mis-aligned, ITMY mis-aligned, DC 3 and 4 on, OMC ASC on.

Excitation freq changed to 0.005 Hz as the top peak of the TM00 mode looked squint so could have been saturating. Lowering this frequency prevented this.

Ref 15-17 corresponds to dcpd data, pzt exc signal, pzt2 dc monitor.

 

Then mis-aligned ITMX and aligned ITMY (Sheila had to re-align SR2 to centre on ASC-AS_C).

Measurement starts at 17:08:18 UTC.

Ref 18-20 corresponds to dcpd data, pzt exc signal, pzt2 dc monitor.

 

Traces saved in 20250516_OMC_scan.xml. The top left plot is the first scan bouncing beam off ITMX, the second scan is the bottom right bouncing off ITMY.

The top right is the two plots of the PZT2 DC voltage monitor. That is, the current voltage applied to the PZT. The bottom left is the plot of the voltage ramp applied to the PZT2 on the OMC for this measurement.

 

The ndscope attached shows the power in mA transmitted through the OMC on the top, then the PZT used for the scan DC voltage underneath, then the input PZT voltage underneath that, then the reflected power from the OMC in mW, then at the bottom the SR3 heater element temperature in degrees.

 

Elenna did two more scans in single bounce with sidebands back on and different modulations depths in each.

Images attached to this report
Comments related to this report
jennifer.wright@LIGO.ORG - 10:38, Friday 16 May 2025 (84433)
Link

See Elenna's comment on her previous measurement where this saturation happened.

Turn off the sidebands - instructions in this alog.

elenna.capote@LIGO.ORG - 16:51, Friday 16 May 2025 (84441)
Link

Sheila and I ran one more OMC scan with sidebands off after OM2 heated up. Attached is the screenshot with scans off both ITMX and ITMY, data is saved in [userapp]/omc/h1/templates/OMC_scan_single_bounce_sidebands_off.xml

 

Images attached to this comment
elenna.capote@LIGO.ORG - 17:02, Friday 16 May 2025 (84442)
Link

I also ran two OMC scans, single bounce off ITMY, 10 W input, with the sidebands ON. One measurement I ran with the sidebands set to 23 dBm and 27 dBm (9 and 45 MHz) and another set to 20 dBm and 21 dBm (9 and 45 MHz). I will use these measurements to calibrate the modulation depth. Data saved in /opt/rtcds/userapps/release/omc/h1/templates/OMC_scan_single_bounce_RF_cal.xml

SR3 heater was on for this measurement but it should have little effect on my results.

camilla.compton@LIGO.ORG - 11:40, Tuesday 03 June 2025 (84749)
Link

Looked closer at these HWS signals during SR3 heater heat up and cool down. In all these plots, the two t-cursors are used as the reference and shown HWS live image.

  • Heat up plot attached
  • Cool down plot attached (ITMX was misaligned so there's no HWS data)

Some strange things:

  • ITMX heat up ndscope spherical power looks the opposite direction of ITMY, this isn't physical. Looking at the HWS Live plot, this isn't really want's happening, it appears that the SR3 signal just appears if the edge of ITMX is heating up so the center that the calculations are made from isn't correct, making the calculated spherical power wrong.
  • In both the heat up and cool down of the ITMY signal, there appears to be two steps with a flat region in the middle. Looking at the the flat region only, attached, it appears that the spherical power is continuing to change in the expected direction, unsure why this change isn't shown in the calculated spherical power.
Images attached to this comment
jennifer.wright@LIGO.ORG - 12:09, Thursday 10 July 2025 (85661)
Link

Finally got round to fitting the two single bounce mode scans done with SR3 hot and OM2 cold. The first we had ITMX aligned, the second we switched to ITMY aligned.

These can currently be processed using OMCscan.py in the /dev branch for the labutils/omcscan repository at /ligo/gitcommon/labutils/omc_scan, you need to have activated the labutils conda environment to do so.

The call statements for the data processing are:

python OMCscan.py 1431449762 130 "1st 1431449762 - SR3 hot, 10W PSL, ITMY mis-aligned" "single bounce" -s -v -o 2 -m 

python OMCscan.py 1431450536 140 "2nd 1431450536 - SR3 hot, 10W PSL, ITMX mis-aligned" "single bounce" -s --verbose -m -o 2

For each measurement the tag -s specifices that the sidebands were not on and so in order to calibrate the PZT the code uses the two TM00 modes and then you have to tell it in what height order the 10 and 20 modes appear relative to the highest peak which will be one of the 00 modes.

def identify_C02(self):

"""If in single bounce configuration, and with sidebands off,

identify 10 and 20 modes in order to improve fit.

Assumes that

OMCscan.identify_peaks()

and

OMCscan.identify_carrier_00_peaks()

have already been run.

 

Output:

-------

self.peak_dict: dictionary

first set of keys are carrier, 45 upper, 45 lower

second set of keys are TEM mode, e.g. "00", "01", "20", etc.

third set of keys is the fsr number

"""

 

# Create temporary dictionary to combine into self.peak_dict

peak_dict = {}

peak_dict["carrier"] = {"10": {}, "20": {}}

#print(peak_dict)

nn = [2, 1]

mm = 0

#freq_diff = np.empty(np.size(self.peak_frequencies)) not sure why this line here.

#set frequency to be that of third largest peak.

first_order = np.argsort(self.peak_heights)[-4]#-4 for second meas.

second_order = np.argsort(self.peak_heights)[-3]#change index to match where 20 is in terfirst meas if measuring from start of scan.ms of peak height.

#print(third_larg)

for ii, peak_freq in enumerate(self.peak_frequencies):

if peak_freq == self.peak_frequencies[second_order]:

#print("found C02")

#print(f"List fields in IFO {self.fields_MHz}")

#print(type(self.fields_MHz))

#print(f"OMC HOM spacing {self.omc_hom} MHz")

#print(type(self.omc_hom))

field = f"carrier"

#print(f"mode {field}{nn[0]}{mm}")

peak_dict[field]["20"][-1] = {

"height": self.peak_heights[ii],

"voltage": self.peak_pzt_voltages[ii],

"frequency": self.peak_frequencies[ii],

"true_frequency": np.mod((self.fields_MHz - (nn[0] + mm) * self.omc_hom), self.omc_fsr),

"label": r"$c_{20}$",

}

self.peak_ided[ii] = 1

elif peak_freq == self.peak_frequencies[first_order]:

field = f"carrier"

peak_dict[field]["10"][-1] = {

"height": self.peak_heights[ii],

"voltage": self.peak_pzt_voltages[ii],

"frequency": self.peak_frequencies[ii],

"true_frequency": np.mod((self.fields_MHz - (nn[1] + mm) * self.omc_hom), self.omc_fsr),

"label": r"$c_{10}$",

}

self.peak_ided[ii] = 1

else:

continue

# Merge dictionaries

#if not "20" in peak_dict["carrier"].keys():

self.peak_dict["carrier"] = {**self.peak_dict["carrier"], **peak_dict["carrier"]}

#print(self.peak_dict)

#print(self.peak_ided)

return

 

For both measurements I only took slightly over 1 FSR of the data, this is because in order to fit a polynomial to the known peaks (allowing us to calculate the PZT non-linearity), the code assumes the 1st order is the 3rd highest and 2nd order is the 4th highest.  In the code above you need to change the indexes in the below lines to match the height order of the peaks (ie. and index of -4 is fourth highest peak).

first_order = np.argsort(self.peak_heights)[-4]

second_order = np.argsort(self.peak_heights)[-3]

When the mode-matching is bad this may not be true, also if there are multiple FSRs in the scan this also may not be true.

 

First measurement 1st order mode is fifth highest, 2nd order mode is third highest. The scan is here. I took 130 s of data. The PZT fit is here.

Second measurement the 1st order mode was the 4th highest, 2nd order mode was the third highest. The scan is here. I took 140s of the scan data. The PZT fit is here.

 

Non-image files attached to this comment
jennifer.wright@LIGO.ORG - 11:52, Friday 11 July 2025 (85693)
Link

First measurement has 

1.69/(1.69+15.86) = 9.63 % mode mis-match.

 

Second measurement has 

1.25*100/(1.25 + 16.46) = 7.06 % mode mis-match

 

jennifer.wright@LIGO.ORG - 15:56, Friday 11 July 2025 (85698)
Link

I also analysed the single bounce measurements Elenna and Sheila made after OM2 was heated up. So these have both SR3 and OM2 hot.

For both these measurements C02 was the third highest mode and C01 was the fourth highest. I took 120s starting 45s into the scan.

 

Measurement 1: 23:40:38 UTC on 2025/05/16 with ITMX aligned and ITMY mis-aligned.

See the spectrum with labelled peaks here.

And the PZT calibration here.

Mode mis-match is: 

0.93/( 0.93 + 17.29 ) = 5.10 %

 

Measurement 2: 23:46:48 UTC on 2025/05/16 with ITMY aligned and ITMX mis-aligned.

See the spectrum with labelled peaks here.

And the PZT calibration here.

100 * 0.56/( 0.56 + 17.62 ) = 3.08 %

Bear in mind that this is assuming that there is no astigmatism in the OMC (since there is but we cannot resolve 02 vs 20 modes). This requires some careful analysis of uncertainties to get useful info about how we should tune for better mode-matching. Watch this space.

Non-image files attached to this comment
sheila.dwyer@LIGO.ORG - 08:58, Wednesday 15 April 2026 (89897)
Link

In these scans the SR3 heater request (POWER_SET) was 2W, the readback power monitor reports 1.9W. 

Displaying reports 1-20 of 87335.Go to page 1 2 3 4 5 6 7 8 9 10 End