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Simulation of optical matrix

by Gabriele Vajente last modified 2008-06-26 09:56

Large Schnupp asymmetry

This page summarize the results of a Finesse simulation of the optical matrix, including all pick-off ports.

The five degrees of freedom are actuated using an extension of the present Virgo scheme:

  • DARM and CARM to end mirrors
  • PRCL to PRM only
  • SRCL to SRM only
  • MICH to BS, PRM, SRM according to the geometrical matrix

Here only the single demodulation scheme is used.

Demodulation phases have been optimized in order to maximize the following dofs in the phase signal:
  • ASY_SB1: DARM
  • ASY_SB2: DARM
  • ASY_SB3: DARM
  • SYM_SB1: PRCL / CARM
  • SYM_SB2: PRCL / CARM
  • SYM_SB3: PRCL / CARM
  • POBS_SB1: CARM
  • POBS_SB2: SRCL
  • POBS_SB3: CARM
  • [X | Y]P_SB1: DARM
  • [X | Y]P_SB2: DARM
  • [X | Y]P_SB3: DARM
  • PO[X | Y]_SB1: CARM
  • PO[X | Y]_SB2: SRCL
  • PO[X | Y]_SB3: CARM

The input file is available here.

Optical transfer functions


All optical transfer function can be found in a single PDF file here. Solid lines refer to phase signal, dotted one to quadrature.

DC optical matrix


The transfer function values at DC (to be precise at 10 mHz) are summarized in the following table. This has to be considered with care since not all transfer functions are frequency independent.


          Signal        
          DARM        
           CARM        
          PRCL        
          MICH        
          SRCL          
ASY_SB1_P-2.36e+10+4.64e+07-6.29e+04-2.96e+07+4.40e+01
ASY_SB1_Q+8.37e+06-1.64e+04+5.94e+03+7.48e+05+5.71e+00
ASY_SB2_P-7.08e+12+1.39e+10-8.56e+06-8.87e+09-1.03e+07
ASY_SB2_Q-3.48e+09+6.83e+06+1.00e+06-4.03e+06+3.91e+05
ASY_SB3_P+7.50e+10-1.47e+08-1.84e+05+9.39e+07+1.56e+03
ASY_SB3_Q-1.65e+07+3.21e+04+1.83e+03+3.17e+04-2.54e+04
SYM_SB1_P+9.60e+09+4.08e+14+6.27e+11+1.70e+07+2.62e+05
SYM_SB1_Q+6.26e+05+2.67e+10-6.02e+07-3.23e+06-1.34e+04
SYM_SB2_P+4.10e+09+1.74e+14+2.77e+11+4.66e+07+2.37e+10
SYM_SB2_Q+1.89e+08+8.09e+12+9.72e+09-9.65e+08-1.72e+08
SYM_SB3_P-9.77e+09-4.15e+14-5.20e+11-3.79e+06-2.63e+06
SYM_SB3_Q+2.63e+07+1.11e+12+1.40e+09+7.29e+05-3.42e+05
POBS_SB1_P-1.10e+10-5.76e+11+7.54e+08-2.41e+05+3.30e+03
POBS_SB1_Q+4.08e+06+2.13e+08+7.06e+07+1.62e+04+4.00e+04
POBS_SB2_P-9.31e+09-4.86e+11+2.92e+08+5.29e+05+3.49e+08
POBS_SB2_Q+7.39e+08+3.86e+10+1.09e+07-7.12e+06-5.87e+04
POBS_SB3_P+1.58e+08+8.27e+09+9.97e+06-8.05e+04+7.54e+04
POBS_SB3_Q+1.83e+05+9.00e+06-8.58e+04+9.28e+05-4.80e+05
XP_SB1_P+2.13e+07+5.66e+10-7.70e+07+2.46e+04-3.28e+02
XP_SB1_Q-4.93e+04-1.08e+08+7.38e+06+1.60e+03+4.08e+03
XP_SB2_P+2.13e+07+5.67e+10-3.52e+07-9.39e+04-4.21e+07
XP_SB2_Q-8.16e+04-2.51e+09-2.55e+06+8.58e+05-1.46e+06
XP_SB3_P-9.47e+05-2.44e+09-3.06e+06+7.93e+04-5.14e+04
XP_SB3_Q+1.18e+04+4.71e+08+5.61e+05+2.79e+05-1.42e+05
YP_SB1_P+1.85e+07-5.66e+10+7.70e+07+2.95e+04+3.35e+02
YP_SB1_Q-1.28e+04+1.23e+07-7.25e+06+5.35e+03+4.08e+03
YP_SB2_P+1.86e+07-5.66e+10+3.51e+07+1.28e+05+4.19e+07
YP_SB2_Q+4.58e+04+2.48e+09+2.56e+06-8.62e+05-1.94e+06
YP_SB3_P-1.36e+06+4.00e+09+5.02e+06+6.65e+04-4.51e+04
YP_SB3_Q-1.76e+04-7.81e+08-9.31e+05+2.72e+05-1.39e+05
POX_SB1_P-1.06e+10+5.56e+11-7.85e+08+2.51e+05-3.37e+03
POX_SB1_Q-1.36e+07+7.13e+08-7.48e+07-1.65e+04-4.16e+04
POX_SB2_P+8.95e+09-4.69e+11+3.04e+08+5.47e+05+3.63e+08
POX_SB2_Q-7.15e+08+3.74e+10+1.12e+07-7.42e+06-2.49e+05
POX_SB3_P+1.52e+08-7.97e+09-1.04e+07+8.15e+04-7.73e+04
POX_SB3_Q+2.06e+05-1.02e+07-1.14e+05+9.66e+05-5.00e+05
POY_SB1_P-1.06e+10-5.56e+11+7.85e+08+3.01e+05+3.47e+03
POY_SB1_Q-1.42e+07-7.43e+08+7.49e+07-5.43e+04-4.16e+04
POY_SB2_P+8.99e+09+4.70e+11-3.01e+08-1.45e+06-3.62e+08
POY_SB2_Q+2.50e+07+1.30e+09-3.62e+07+7.37e+06-1.96e+05
POY_SB3_P+2.51e+08+1.31e+10+1.70e+07+4.41e+04-5.90e+04
POY_SB3_Q-1.64e+05-9.13e+06+1.53e+05+9.34e+05-4.84e+05