J. Kissel

We're beginning the process of completing all the side quests for suspensions beyond SR3 and PR3. For a summary of what these side quests are, check out the first half of G2501621. 
Today, after 
 - LHO:87103 Fil upgraded satamps the lower, M2 and M3, stages of H1 SUS PRM (ECR E2400330; Side Quest 1), and
 - LHO:87105 Oli updated the OSEMINF filter banks to precisely compensate the new sat amp frequency response (Side Quest 3),
I report on measurements taken for Side Quest 4 -- to measure the absolute, overall scale of the individual OSEMs response to suspension point motion (as predicted from the ISI GS13s projected into that basis) in the presence of ISI drive. This will eventually be processed in a way similar to LHO:86222 for PR3 top mass and LHO:84531 for SR3 top mass.

However, for PRM, which is a globally controlled suspension where we drive the M2 and M3 stages (unlike PR3/SR3), the lower stages also need all of these side quests and absolute calibration. So, here I gather the data or the M2 and M3 as well since we can get them "for free," just adding the channels to the response list.

Here's the position of the suspension according to the medium trustworthy "urad" while the suspension is ALIGNED -- 
          M1 Drive request    M1 OSEM      M2 OSEM      M3 OSEM [all "urad"]
    P ::      -1628           -1231          -982         -1520 
    Y ::        -60             -45          +645          -344
where I put "urad" in quotes because that's what these OSEMs are all calibrated to, nominally, but they've never been validated with anything -- until the future results from the data in this aLOG. That includes -- to the best of my aLOG searching, even the alignment sliders (which are sometimes calibrated with using the IFO beam and a distant geometrically known shape as an optical lever; see e.g. for BS and PR2 LHO:25650 or PR3 LHO:70197). Indeed, the alignment slider calibrations for PRM are still P = 1.875 [DAC ct/"urad"] and Y = 2.681 [DAC ct/"urad"] that were derived from the modeled electronics chain and actuation strength from LHO:4563.

Anyways -- Here's the data with the alignment offsets ON.
/ligo/svncommon/SusSVN/sus/trunk/HSTS/H1/PRM/Common/Data
2025-09-23_1810_H1ISIHAM2_ST1_PRM_WhiteNoise_ISO_X_0p05to40Hz_calibration.xml
2025-09-23_1810_H1ISIHAM2_ST1_PRM_WhiteNoise_ISO_Y_0p05to40Hz_calibration.xml
2025-09-23_1810_H1ISIHAM2_ST1_PRM_WhiteNoise_ISO_Z_0p05to40Hz_calibration.xml
and I attach screenshots of these templates' results.

The top mass, M1 data show similar levels of calibration adjustment needed as PR3/SR3; corrections in the range of 1/0.78 = 1.28 [urad/"mrad"] and 1/0.64 = 1.56 [urad/"urad"] are needed.
Perhaps unsurprisingly, the lower stage OSEMs need similar levels of correction. 
PRM's M3 LL OSEM needs the most correction, needing a factor of 1/0.0915 = 10.9 [urad / "urad"]. Yikes! Note, with the suspension ALIGNED, the ADC counts for the M3 LL are still at 18660 [ct], and MISALIGNED they're 18740 [ct], both out of 2^15 = 32768 [ct], so it's not like it's at the edge of it's range, either with the flag fully or not occulting light. Nor is it like the LED emitted power dropped substantially low... huh.

Welp, it'll be good to get all of these OSEMs calibrated!