The Intrepid Adventures in the 40m Upgrade Land of Optical Design

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Here's a summary of the optical design process that has been going on on for the past few months.

The cavity parameters became (in m): larm = 38.4; lSRC = c/f2 = 5.4185; lPRC = (0+0.5)*c/2/f1 = 6.7731; lASY = 0.0308;


Then, as noted in elog entry xxx, we changed the length of the PRC and SRC to restore the resoance conditions.

larm = 38.4; lSRC = 5.3573; lPRC = 6.74659; lASY = 0.0308;


We realized that in order to guarantee the RSE conditions in the central part (f1 resoanant in PRC, f2 resonant in PRC and SRC, SRC critically coupled to PRM for f2), PRCL and SRCL macroscopic lengths, and Schnupp asymmetry had to be tuned simultaneusly. But since we don't know the shape of the rather complicated response of the sidebands to the central cavity, we couldn't really tune the parameters all at the same time.

Starting from the the previous solution, we then followed an iterative process to explore whta is a 3-dimensional space: 1) PRC length tuning to make f1 resonate in PRC 2) SRC length and lASY simultaneous tuning to maximise the power of f2 in SRC

minusf2CouplingConditions.png

The solution was (in m): larm = 38.4; lSRC = 5.3657; lPRC = 6.7469; lASY = 0.0912;


Now we had to re-tune the parameters adding to the conditions in (3) also that the SBs' power was the same in lx and ly (the short michelson). We tried a new iterative process, hoping that it would converge to a solution:

  1. PRC length tuning to make f1 resonate in PRC
  2. lASY tuning to equalize the power in lx and ly
  3. SRC length tuning to maximise the power of f2 in SRC (we decided that f2 critical coupling the least important condition)

We found a solution at: larm = 38.4; lSRC = 5.4006; lPRC = 6.74668; lASY = 0.0568;

centralParametersOptimization_ASY.png centralParametersOptimization_PRC.png centralParametersOptimization_SRC.png


errorSignals3f_nonideallength_all.png errorSignals3f_nonideallength_all_optgain_lockpoint.png

Just for an example, compare it with an improbable ideal optical design in which the ars are 47m long.

errorSignals3f_ideallength_all.png errorSignals3f_ideallength_all_optgain_lockpoint.png

Looking at the reflectance of the full interferometer for the SB involed in the 3f2 demodulation (that is, +/-f2, +/-2*f2, +/-3*f2), it turns out f2 is not resonant.

ifo_reflectances.png

Reducing PRC of 0.0219 m, would make f2 resonate, but then there would be a difference of about 100mW in f2 between lx and ly.