J. Kissel, J. Driggers, T. Shaffer, D. Tuyenbayev, E. Goetz, K. Izumi Over two ~1-2 hour lock stretches, I've managed to get the measurements needed for a baseline calibration update for ER9. Complete success! We'll work on the data analysis tomorrow, but I list the locations where all measurements have been committed to the CAL repo below. Of particular notes for the configuration of the IFO while doing these measurements: - The OMC DCPDs have *no* stages of whitening employed. We've decreed that given the unknown success rate of PI damping over the next few days, it's more robust to leave the whitening off. We're not gaining too much in the high frequency end of the sensitivity anyways. - All suspensions, including ETMY, have had their PUM stage switched to "Acq ON, LP OFF," i.e. state 2, or the highest range (i.e. not low noise). After some digging, Jenne found this was changed for some reason about a month ago, and maybe a setting that got lost in the power outage or something. I don't think either of these seemingly detrimental configurations are all that bad for ER9, given the bigger sensitivity issues elsewere. Also note, in order to break the correlations we've found in O1 data between measurements of Actuation Stage Strength (see e.g. LHO aLOG 28096), I've taken an independent PCAL2DARM sweep for every isolation stage. Measurements needed for Sensing Function: /ligo/svncommon/CalSVN/aligocalibration/trunk/Runs/PreER9/H1/Measurements/PCAL/ 2016-07-01_H1_PCAL2DARMTF_4to1200Hz_SRCTuned.xml Exported as: 2016-07-01_PCALY2DARMTF_4to1200Hz_A_PCALRX_B_DARMIN1_coh.txt 2016-07-01_PCALY2DARMTF_4to1200Hz_A_PCALRX_B_DARMIN1_tf.txt /ligo/svncommon/CalSVN/aligocalibration/trunk/Runs/PreER9/H1/Measurements/DARMOLGTFs/ 2016-07-01_H1_DARM_OLGTF_4to1200Hz_SRCTuned.xml 2016-07-01_H1_DARM_OLGTF_4to1200Hz_A_ETMYL3LOCKIN2_B_ETMYL3LOCKIN1_tf.txt 2016-07-01_H1_DARM_OLGTF_4to1200Hz_A_ETMYL3LOCKIN2_B_ETMYL3LOCKIN1_coh.txt 2016-07-01_H1_DARM_OLGTF_4to1200Hz_A_ETMYL3LOCKIN2_B_ETMYL3LOCKEXC_tf.txt 2016-07-01_H1_DARM_OLGTF_4to1200Hz_A_ETMYL3LOCKIN2_B_ETMYL3LOCKEXC_coh.txt Measurements needed for Actuation Function: /ligo/svncommon/CalSVN/aligocalibration/trunk/Runs/PreER9/H1/Measurements/FullIFOActuatorTFs/ 2016-07-01_PCALYtoDARM_FullLock_L1.xml 2016-07-01_H1SUSETMY_PCALYtoDARM_ForL1Drive_FullLock_tf.txt 2016-07-01_H1SUSETMY_PCALYtoDARM_ForL1Drive_FullLock_coh.txt 2016-07-01_H1SUSETMY_L1toDARM_FullLock.xml 2016-07-01_H1SUSETMY_L1toDARM_State1_FullLock_tf.txt 2016-07-01_H1SUSETMY_L1toDARM_State1_FullLock_coh.txt 2016-07-01_PCALYtoDARM_FullLock_L2.xml 2016-07-01_H1SUSETMY_PCALYtoDARM_ForL2Drive_FullLock_tf.txt 2016-07-01_H1SUSETMY_PCALYtoDARM_ForL2Drive_FullLock_coh.txt 2016-07-01_H1SUSETMY_L2toDARM_FullLock.xml 2016-07-01_H1SUSETMY_L2toDARM_State2_FullLock_tf.txt 2016-07-01_H1SUSETMY_L2toDARM_State2_FullLock_coh.txt 2016-07-01_PCALYtoDARM_FullLock_L3.xml 2016-07-01_H1SUSETMY_PCALYtoDARM_ForL3Drive_FullLock_tf.txt 2016-07-01_H1SUSETMY_PCALYtoDARM_ForL3Drive_FullLock_coh.txt 2016-07-01_H1SUSETMY_L3toDARM_LVLN_LPON_FullLock.xml 2016-07-01_H1SUSETMY_L3toDARM_LVLN_LPON_FullLock_tf.txt 2016-07-01_H1SUSETMY_L3toDARM_LVLN_LPON_FullLock_coh.txt
Evan G., Jeff K.
I processed the suspension actuation coefficients for the L1, L2, and L3 stages using the preliminary DARM model based on the one used during O1. We know that there need to be some modifications made, but the take home message here is that the actuation coefficients are about as to be expected. All are within ~5% of their O1 values. See attached figures.
The first attachment shows the UIM stage actuation coefficient. We have not yet included the BOSEM inductance and we have not yet included any actuator dynamics, so there is remaining discrepancy above ~20 Hz. There also appears to be some sort of phase wrapping issue that we still need to sort out.
The second attachment shows the PUM stage actuation coefficient. Things look pretty good here, although there may be some fluctuating optical gain which we have not yet accounted for in the measurement.
The third attachment shows the TST stage actuation coefficient. Again, there may be some fluctuating optical gain not accounted for in the measurement, and there is a phase wrapping issue to be sorted out.
Next on the agenda is to sort out the above issues and establish the actuation coefficients for the ER9 run.
The sensing function attached above includes uncompensated high frequency poles from the whitening chassis and the transimpedence amplifier, so there will be some delay assocated with these values.
To see only the optical response, we have removed these high frequency poles, as well as the analog AA and digital AA transfer functions, in the attached data file.