Commit 2b770942 authored by Daniel Brown's avatar Daniel Brown
Browse files

adding test file for unicode printing with locking

parent e6e1599e
Pipeline #945 failed with stage
#--------------------------------------------------------------------------
# LHO_IFO_maxtem2.kat
#
# FINESSE kat file for the mode-matched H1 dual recycled Michelson with FP arm cavities.
#
# Design 2 refers to the updates from the original design, such as
# including measured mirror parameters. Some lengths may have changed
# from the original design to account for the new mirror parameters.
# Lengths are taken from E1200616 v7.
#
# No IMC or PMMT, thin PRM and SRM
#
# Mirror specs taken from https://nebula.ligo.caltech.edu/optics/ as of 2015/09/08
#
# IMC, HAM2, HAM6, OMC path and OMC are based on the generic aLIGO design files found here:
# https://dcc.ligo.org/L1300231-v10
# with updates based on galaxy page where appropriate.
#
# Thermal lens in ITMs modelled as a thin lens in front of the AR surfaces
# ITMs include non-thermal substrate lenses as calculated from measurements
# reported in the polisher's reports found on the nebula page. These are turned
# off by default here though.
#
# ** Updated non-thermal lens focal lengths (not used here though)**
# ITMY lens focal length = -80.2km
# ITMX lens focal length = 572km
# Calculation is shown in LIGO T1300954
#
# - Updated with Galaxy page(https://galaxy.ligo.caltech.edu/optics/) values for installed SRM-w
# - Includes locks for DARM (~10pm offset), PRCL, MICH, CARM and SRCL
#
# Charlotte Bond, Paul Fulda, Daniel Brown, Antonio Perreca, Andreas Freise 2015-09-08
#--------------------------------------------------------------------------
%%% FTblock laser
###########################################################################
l L0 125 0 n0
s lmod1 1 n0 n1
mod mod1 $f1 0.18 1 pm n1 n2
s lmod2 1 n2 n3
mod mod2 $f2 0.18 1 pm n3 n4
s lmod3 1 n4 n5
mod mod3 $f3 0.1 2 pm n5 n6
s mod3toMC1 1 n6 nMC1AR1in
###########################################################################
%%% FTend laser
%%% FTblock IMC
#####################################################################################
# MC1 IMCF-09
bs2 MC1AR1 257u 6.8u 0 44.59 nMC1AR1in dump nMC1AR1trans dump
s sMC1substrate1 0.0845 $nsilica nMC1AR1trans nMC1HRin
bs1 MC1HR 6030u 0.6u 0 28.9661 nMC1HRin nMC1HRrefl nMC1HRtrans nMC1HRfromMC3HR
s sMC1substrate2 0.0845 $nsilica nMC1HRrefl nMC1AR2in
bs2 MC1AR2 257u 6.8u 0 28.9661 nMC1AR2in dump nMCREFL dump
s sMC1HRtoMC2 16.2405708 nMC1HRtrans nMC2in
# MC2 IMCC-02
bs1 MC2 5.1u 9.3u 0 0.82 nMC2in nMC2refl nMC2trans dump
s sMC2toMC3 16.2405708 nMC2refl nMC3HRin
attr MC2 Rc 27.275
# MC3 IMCF-06
bs1 MC3HR 5845u 0.8u 0 44.59 nMC3HRin nMC3HRrefl nMC3HRtrans nMCreturn_refl
s sMC3substrate 0.0845 $nsilica nMC3HRtrans nMC3ARin
bs2 MC3AR 0 0 0 28.9661 nMC3ARin dump nMC3ARtrans dump
s sMC3ARtoIM1 0.4282 nMC3ARtrans nIM1in
s sMC3HRtoMC1HR 0.465 nMC3HRrefl nMC1HRfromMC3HR
#####################################################################################
%%% FTend IMC
%%% FTblock HAM2
#####################################################################################
# IM1 a.k.a. SM1
bs1 IM1 0 0 0 53 nIM1in nIM1refl nIM1HRtrans dump
s sIM1sub 0.02995 $nsilica nIM1HRtrans nIM1ARin
bs2 IM1AR 0 0 0 33.4 nIM1ARin dump nIM1ARtrans dump
s IM1ARtonanoscan 3 nIM1ARtrans nIOT2Lnanoscan
#AOE1
s sIM1toAOE1 0.1955 nIM1refl nAOE1in
lens AOE1 inf nAOE1in nAOE1trans
# IM2 a.k.a. PMMT1
s sAOE1toIM2 1.0983 nAOE1trans nIM2in
bs1 IM2 0 0 0 7 nIM2in nIM2refl dump dump
attr IM2 Rc 12.8
s sIM2toIM3 1.1704 nIM2refl nIM3in
# IM3 a.k.a PMMT2
#s sIM2toIM3 1.1704 nIM2refl nIM3in
bs1 IM3 0 0 0 7.1 nIM3in nIM3refl dump dump
attr IM3 Rc -6.24
#AOE2
s sIM3toAOE2 1.041 nIM3refl nAOE2in
lens AOE2 inf nAOE2in nAOE2trans
# IM4 a.k.a. SM2
s sAOE2toIM4 0.134 nAOE2trans nIM4in
bs1 IM4 2400u 0 0 45 nIM4in nIM4refl nIM4trans nIM4rettrans
# Distance from IM4 to PRMAR surface
s sIM4toPRMAR 0.4135 nIM4refl nREFL
#####################################################################################
%%% FTend HAM2
%%% FTblock PR
#####################################################################################
# PRM-04
# AR surface
m2 PRMAR 35u 4.5u $phi_PRM nREFL nPRMARb
# Substrate
s sPRMsub1 0.0737 $nsilica nPRMARb nPRMHRa
# HR surface
m1 PRMHR 0.0299 8.5u $phi_PRM nPRMHRa nPRMHRb
attr PRMHR Rc 10.948
# Distance between PRM and PR2
s lp1 16.6128 nPRMHRb nPR2a
# PR2-04 optic
bs1 PR2 229u 10.7u 0 -0.79 nPR2a nPR2b dump nPOP
attr PR2 Rc -4.543
# Distance from PR2 to PR3
s lp2 16.1626 nPR2b nPR3a
# PR3-01
bs1 PR3 3.17u 16.95u 0 0.615 nPR3a nPR3b dump dump
attr PR3 Rc 36.021
# Distance from PR3 to BS
s lp3 19.5381 nPR3b nPRBS
###########################################################################
%%% FTend PR
%%% FTblock BS
###########################################################################
# BS beamsplitter BS-06
##------------------------------------------------------------
## BS
## ^
## to ITMY |
## | ,'-.
## | + `.
## nHRBS_Y | ,' :'
## nPR3b | +i1 +
## ----------------> ,:._ i2 ,'
## from the PRC nHRBS_PR + \ `-. + nARBSX_X
## ,' i3\ ,' --------------->
## + \ + to ITMX
## ,' i4.'
## `._ ..
## `._ ,' |nARBSSR_SR
## - |
## i1=nHRBS_X |to the SRC
## i2=nARBSX_sub |
## i3=nHRBS_SR v
## i4=nARBSSR_sub
##------------------------------------------------------------
# BS BS-06
bs1 BS 0.5 14.3u $phi_BS 45 nPRBS nYBS nBSi1 nBSi3
s BSsub1 0.0685 $nsilica nBSi1 nBSi2
s BSsub2 0.0684 $nsilica nBSi3 nBSi4
bs2 BSAR1 50u 1.4u $phi_BS -29.1951 nBSi2 dump nXBS nPOX
bs2 BSAR2 50u 1.4u $phi_BS 29.1951 nBSi4 dump nSRBS dump
###########################################################################
%%% FTend BS
%%% FTblock Yarm
###########################################################################
s ly1 4.847 nYBS nCPYAR1a
# Y arm compensation plate CP-05
m2 CPYar1 27.2u 0.4u 0 nCPYAR1a nCPYAR1b
s sCPY 0.10024 $nsilica nCPYAR1b nCPYAR2a
m2 CPYar2 5u 0.4u 0 nCPYAR2a nCPYAR2b
s sCPYtoITMYar 0.02 nCPYAR2b nITMYTLa
# Y arm input mirror - ITM-11
# Thermal lens
lens ITMYTL $TL_f nITMYTLa nITMYTLb
s ITMYTL_null 0 nITMYTLb nITMYconstLa
# Constant ITMY substrate lens
lens ITMYconstL inf nITMYconstLa nITMYconstLb
s ITMYTL_null2 0 nITMYconstLb nITMY1
m2 ITMYAR 294u 1u $phi_ITMY nITMY1 nITMYs1
s lITMY 0.199904 $nsilica nITMYs1 nITMYs2
m1 ITMYHR 0.0142 12.4u $phi_ITMY nITMYs2 nITMY2
attr ITMYHR Rc -1939.39
# Y-arm
s sYARM 3994.485 nITMY2 nETMY1
# ETMY - ETM-12
m1 ETMYHR 3.6u 9.2u $phi_ETMY nETMY1 nETMYs1
s ETMYsub 0.2 $nsilica nETMYs1 nETMYs2
m2 ETMYAR 500u 0 $phi_ETMY nETMYs2 nPTY
attr ETMYHR Rc 2238.9
attr ITMYHR mass 39.636
attr ETMYHR mass 39.597
###########################################################################
%%% FTend Yarm
%%% FTblock Xarm
###########################################################################
s lx1 4.829 nXBS nCPXAR1a
# X arm compensation plate CP-01
m2 CPXar1 10.2u 0.5u 0 nCPXAR1a nCPXAR1b
s sCPX 0.09982 $nsilica nCPXAR1b nCPXAR2a
m2 CPXar2 43.7u 0.3u 0 nCPXAR2a nCPXAR2b
s sCPXtoITMXar 0.02 nCPXAR2b nITMXTLa
# X arm input mirror ITM-03
# Thermal lens
lens ITMXTL $TL_f nITMXTLa nITMXTLb
s ITMXtl_null 0 nITMXTLb nITMXconstLa
# Non-thermal ITM lens
lens ITMXconstL inf nITMXconstLa nITMXconstLb
s ITMXTL_null2 0 nITMXconstLb nITMX1
m2 ITMXAR 264u 1.1u $phi_ITMX nITMX1 nITMXs1
s ITMXsub 0.20027 $nsilica nITMXs1 nITMXs2
m1 ITMXHR 0.0139 5.9u $phi_ITMX nITMXs2 nITMX2
s sXARM 3994.485 nITMX2 nETMX1
# X arm ETM - ETM-08
m1 ETMXHR 3.6u 8.3u $phi_ETMX nETMX1 nETMXs1
s ETMXsub 0.2 $nsilica nETMXs1 nETMXs2
m2 ETMXAR 500u 0 0 nETMXs2 nPTX
attr ITMXHR Rc -1939.3
attr ETMXHR Rc 2241.54
attr ITMXHR mass 39.589
attr ETMXHR mass 39.603
###########################################################################
%%% FTend Xarm
%%% FTblock SR
###########################################################################
# Distance from BS to SR3
s ls3 19.3661 nSRBS nSR3b
# SR3 SR3-02
bs1 SR3 3.5u 21.3u 0 0.765 nSR3b nSR3a dump dump
attr SR3 Rc 36.013
# Distance from SR3 to SR2
s ls2 15.4601 nSR3a nSR2b
# SR2 SR2-03
bs1 SR2 7.5u 12.7u 0 0.86 nSR2b nSR2a dump dump
attr SR2 Rc -6.424
# Distance from SR2 to SRMHR
s ls1 15.740 nSR2a nSRMHRa
# Signal recycling mirror SRMw-14
m1 SRMHR 0.3696 20u $phi_SRM nSRMHRa nSRMHRb
s SRMsub 0.0749 $nsilica nSRMHRb nSRMARa
m2 SRMAR 50u 0 $phi_SRM nSRMARa nSRMARb
attr SRMHR Rc -5.715
###########################################################################
%%% FTend SR
%%% FTblock FI
###########################################################################
# The FI is on a platform delimited by the Input/Output Buffer Assy (I/OBA)
# The physical distance IBA --> OBA = 0.5034 (D0901920-V13)
# OFI design based on: D0900464, D1002598
# Distance from SRM (AR surface) to the input buffle assy (IBA) in OFI sus
s lIBAin 0.491516 nSRMARb nIBAin
m1 IBA 1 0 0 nIBAin nIBAout
# Distance from IBA to input of OFI (Prism in between not considered)
s lOFIin 0.16 nIBAout nOFIin
# Input Polirizer IP (Silica)
bs1 IP 1 0 0 0 nOFIin dump nIPtrans dump
s lIP 0.019 $nsilica nIPtrans nROTin
# Rotator (TGG)
m1 ROTin 1 0 0 nROTin nROTb
s lROT 0.08285 $nTGG nROTb nROTouta
m1 ROTout 1 0 0 nROTouta nOPa
# Output polirizer OP (Silica)
s lOP 0.019 $nsilica nOPa nOPb
m1 OP 1 0 0 nOPb nOFIout
# Waveplate thickness
s lWP 0.0127 $nCalcite nOFIout nWPa
m1 WP 1 0 0 nWPa nWPb
# Distance from Waveplate to OBA of OFI (Prism in between not considered)
s lOBA 0.2098563 nWPb nOBAin
m1 OBA 1 0 0 nOBAin nOBAout
###########################################################################
%%% FTend FI
%%% FTblock OMCpath
###########################################################################
# (Loctions and angles based on the solid work file D1000342-v14 give ~5%
# mismatch. Thus lom1, lom3omc have been adjusted to get ~99.7% overlap at the OMC)
# (lom1=2.6334,lom3omc=0.24.8 give 99% overlap at OMC)
# Distance OBA --> OM1
s lom1 2.724 nOBAout nOM1a
#OM1
bs1 OM1 800u $Mloss 0 2.251 nOM1a nOM1b dump dump # T is set for high power; Loss is a guess
attr OM1 Rc 4.6
# Distance OM1 --> OM2
s lom2 1.395 nOM1b nOM2a
# OM2
bs1 OM2 10u $Mloss 0 4.399 nOM2a nOM2b dump dump # T is a guess
attr OM2 Rc 1.7058
# Distance OM2 --> OM3
s lom3 0.631 nOM2b nOM3a
bs1 OM3 10u $Mloss 0 30.037 nOM3a nOM3b nOM3trans dump # T is a guess
# Distance OM3 --> OMC input coupler IC (AR side)
s lom3omc 0.196 nOM3b nOMC_ARIC_in # By design should be ~0.31
# Distance in transmission to OM3 used for testing
#s lomOM3trans 0.1 nOM3trans nOMC_ARIC2_in
###########################################################################
%%% FTend OMCpath
%%% FTblock OMC
###########################################################################
# OMC (as built parameters: D1300507-v1)
# Input Coupler IC (flat mirror)
bs1 OMC_ARIC 1 0 0 4.004 nOMC_ARIC_in dump nOMC_ARIC_trans dump
s subOMC_IC 0.01078 $nsilica nOMC_ARIC_trans nOMC_HRIC_in
bs1 OMC_HRIC 0.0076 10u 0 2.7609 nOMC_HRIC_in dump nOMC_HRIC_trans nOMC_HRIC_ret
# Distance from IC to OC
s OMC_ICOC 0.2815 1 nOMC_HRIC_trans nOMC_HROC_in
# Output Coupler OC (flat mirror)
bs1 OMC_HROC 0.0075 10u 0 4.004 nOMC_HROC_in nOMC_HROC_refl nOMC_HROC_trans nOMC_HROC_ret
s subOMC_OC 0.01078 $nsilica nOMC_HROC_trans nOMC_AROC_in
bs1 OMC_AROC 1 0 0 2.7609 nOMC_AROC_in dump nOMC_AROC_trans dump
# Distance from OC to CM1
s OMC_OCCM1 0.2842 1 nOMC_HROC_refl nOMC_CM1_in
# Curved Mirror CM1
bs1 OMC_CM1 36u 10u 0 4.004 nOMC_CM1_in nOMC_CM1_refl dump dump
# Distance from CM1 to CM2
s OMC_CM1CM2 0.2815 1 nOMC_CM1_refl nOMC_CM2_in
attr OMC_CM1 Rc 2.57321
# Curved Mirror CM2
bs1 OMC_CM2 35.9u 10u 0 4.004 nOMC_CM2_in nOMC_CM2_refl dump dump
attr OMC_CM2 Rc 2.57369
# Distance from CM2 to IC
s CM2OC 0.2842 1 nOMC_CM2_refl nOMC_HRIC_ret
###########################################################################
%%% FTend OMC
%%% FTblock tunings
###########################################################################
const phi_SRM 90.0239057373272
const phi_PRM -0.00174644551308074
const phi_ITMX -0.000831200861293824
const phi_ITMY 0.000831200861293824
const phi_ETMX 0.000178466623430732
const phi_ETMY -0.000441627222940841
const phi_BS 0
###########################################################################
%%% FTend tunings
%%% FTblock constants
###########################################################################
const nsilica 1.44963098985906
const nTGG 1.954
const nCalcite 1.65846
const Mloss 0.0000375
const DARM_DC_offset 0.147303
const TL_f 44.2k
const f1 9099471
const mf1 -9099471
const f2 45497355
const mf2 -45497355
const f3 24000000
const nf3 -24000000
const fM 36397884
const nfM -36397884
# TL_f changed from 34.5k to 44.2k in order to bring all overlaps between Xarm and
# other cavities to above 99.9%. 34.5k matches SRC to arms well for the x-axis but
# the y-axis drops to 99.8%.
###########################################################################
%%% FTend constants
%%% FTblock errsigs
###########################################################################
pd1 REFL_f1_I $f1 95 nREFL
pd1 REFL_f1_Q $f1 185 nREFL
pd1 REFL_f2_I $f2 0 nREFL
pd1 REFL_f2_Q $f2 90 nREFL
pd1 POP_f1_I $f1 90 nPOP
pd1 POP_f1_Q $f1 0 nPOP
pd1 POP_f2_I $f2 10 nPOP
pd1 POP_f2_Q $f2 100 nPOP
pd1 AS_f1_I $f1 0 nSRMARb
pd1 AS_f1_Q $f1 90 nSRMARb
pd1 AS_f2_I $f2 165 nSRMARb
pd1 AS_f2_Q $f2 255 nSRMARb
#pd1 OMClockpd $fdither -1.22 nAS
###########################################################################
%%% FTend errsigs
%%% FTblock powers
###########################################################################
pd P_DC_AS nSRMARb
pd P_DC_OMC nOMC_HROC_trans
pd PIMCtrans nREFL*
pd Px nITMX2
pd Py nITMY2
pd Pprc nPRMHRb
pd Psrc nSRMHRa*
ad prc0 0 nPRMHRb
ad prcf1 $f1 nPRMHRb
ad prcf2 $f2 nPRMHRb
ad aoc0 0 nOMC_HROC_trans
ad asc0 0 nSRMARb
ad asf1 $f1 nSRMARb
ad asf2 $f2 nSRMARb
ad src0 0 nSRMHRa*
ad srcf1 $f1 nSRMHRa*
ad srcf2 $f2 nSRMHRa*
###########################################################################
%%% FTend powers
%%% FTblock HOMs
###########################################################################
cav cavIMC MC2 nMC2in MC2 nMC2refl
cav cavPRX PRMHR nPRMHRb ITMXHR nITMXs2
cav cavPRY PRMHR nPRMHRb ITMYHR nITMYs2
cav cavSRX SRMHR nSRMHRa ITMXHR nITMXs2
cav cavSRY SRMHR nSRMHRa ITMYHR nITMYs2
cav cavXARM ITMXHR nITMX2 ETMXHR nETMX1
cav cavYARM ITMYHR nITMY2 ETMYHR nETMY1
cav cavOMC OMC_HROC nOMC_HROC_refl OMC_HROC nOMC_HROC_in
maxtem 2
###########################################################################
%%% FTend HOMs
%%% FTblock locks
###########################################################################
set PRCL_err POP_f1_I re
set MICH_err POP_f2_Q re
set CARM_err REFL_f1_I re
set SRCL_err REFL_f2_I re
#set AS_f2_I_re AS_f2_I re
set OMC_DC P_DC_OMC re
func DARM_err = $OMC_DC - $DARM_DC_offset
lock PRCL_lock $PRCL_err -5.62973625258 10u
lock MICH_lock $MICH_err 9.21280976328 10u
lock CARM_lock $CARM_err 6.00392131762e-05 10u
lock DARM_lock $DARM_err -0.00390550096246 1u
lock SRCL_lock $SRCL_err -1.11459202397 10u
func mMICH_lock = 0 - $MICH_lock
func ETMX_lock = $CARM_lock + $MICH_lock + $DARM_lock
func ETMY_lock = $CARM_lock - $MICH_lock - $DARM_lock
put* PRMHR phi $PRCL_lock
put* PRMAR phi $PRCL_lock
put* ITMXHR phi $MICH_lock
put* ITMXAR phi $MICH_lock
put* ITMYHR phi $mMICH_lock
put* ITMYAR phi $mMICH_lock
put* ETMXHR phi $ETMX_lock
put* ETMXAR phi $ETMX_lock
put* ETMYHR phi $ETMY_lock
put* ETMYAR phi $ETMY_lock
put* SRMHR phi $SRCL_lock
put* SRMAR phi $SRCL_lock
noplot PRCL_lock
noplot SRCL_lock
noplot MICH_lock
noplot DARM_lock
noplot CARM_lock
noplot mMICH_lock
noplot ETMX_lock
noplot ETMY_lock
###########################################################################
%%% FTend locks
%%% FTblock ASWFSs
###########################################################################
s lOM3trans2ASWFSBS 0.66 nOM3trans nASWFSBSin
bs ASWFSBS 0.5 0.5 0 45 nASWFSBSin nASWFSBSrefl nASWFSBStrans dump
s lASWFSBS2ASWFSA 0.1 nASWFSBSrefl nASWFSA
attr lASWFSBS2ASWFSA gouy 70
s lASWFSBS2ASWFSB 0.379 nASWFSBStrans nASWFSB
attr lASWFSBS2ASWFSB gouy 160
# AS WFS RF detectors
pd1 ASWFSA_45I_P $f2 0 nASWFSA
pd1 ASWFSA_45Q_P $f2 90 nASWFSA
pd1 ASWFSA_36I_P $fM 15 nASWFSA
pd1 ASWFSA_36Q_P $fM 75 nASWFSA
pdtype ASWFSA_45I_P y-split
pdtype ASWFSA_45Q_P y-split
pdtype ASWFSA_36I_P y-split
pdtype ASWFSA_36Q_P y-split
pd1 ASWFSB_45I_P $f2 0 nASWFSB
pd1 ASWFSB_45Q_P $f2 90 nASWFSB
pd1 ASWFSB_36I_P $fM 65 nASWFSB
pd1 ASWFSB_36Q_P $fM 155 nASWFSB
pdtype ASWFSB_45I_P y-split
pdtype ASWFSB_45Q_P y-split
pdtype ASWFSB_36I_P y-split
pdtype ASWFSB_36Q_P y-split
const f_sig 1
# AS WFS RF detectors double demodulated at signal frequency $f_sig
pd2 ASWFSA_45I_audio_P $f2 0 $f_sig max nASWFSA
pd2 ASWFSA_45Q_audio_P $f2 90 $f_sig max nASWFSA
pd2 ASWFSA_36I_audio_P $fM 0 $f_sig max nASWFSA
pd2 ASWFSA_36Q_audio_P $fM 90 $f_sig max nASWFSA
pdtype ASWFSA_45I_audio_P y-split
pdtype ASWFSA_45Q_audio_P y-split
pdtype ASWFSA_36I_audio_P y-split
pdtype ASWFSA_36Q_audio_P y-split
pd2 ASWFSB_45I_audio_P $f2 0 $f_sig max nASWFSB
pd2 ASWFSB_45Q_audio_P $f2 90 $f_sig max nASWFSB
pd2 ASWFSB_36I_audio_P $fM 0 $f_sig max nASWFSB
pd2 ASWFSB_36Q_audio_P $fM 90 $f_sig max nASWFSB
pdtype ASWFSB_45I_audio_P y-split
pdtype ASWFSB_45Q_audio_P y-split
pdtype ASWFSB_36I_audio_P y-split
pdtype ASWFSB_36Q_audio_P y-split
###########################################################################
%%% FTend ASWFSs
%%% FTblock commands
%%% FTend commands
# -*- coding: utf-8 -*-
import pykat
from pykat import finesse
result = [] # prepare for the result
kat = finesse.kat() # create a fresh cat object
kat.loadKatFile("LHO_IFO_maxtem2.kat") # load the conf
##############################################
## set excitationas, sensors, and some settings
##############################################
kat.parseKatCode( "fsig sig1 ETMXHR 10 180")
kat.parseKatCode( "fsig sig1 ETMYHR 10 0")
kat.parseKatCode( "pd1 myomc 10 nOMC_HROC_trans")
kat.parseKatCode( "put myomc f1 $x1") # to follow
kat.parseKatCode( "xaxis sig1 f log 10 1k 10")
kat.parseKatCode( "yaxis abs:deg")
kat.verbose = True
out = kat.run() # do the computation
result.append(out['myomc']) # append the result
\ No newline at end of file
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