ip.k_GAS4	4.73.E+02	%kg/s^2	%spring constant of 4th GAS filter	vis
ip.dT_GAS4	TBD	%	%T dependence of spring constant	vis,cry,mif
ip.loss_GAS4blade	1.00.E-02	%	%loss of GAS filter blades	vis
ip.m_joint	1.00.E-01	%kg	%mass of GAS filter joint for wire	vis
ip.lsus_GASPF	2.10.E+00	%m	%wire length btw 4th GAS filter and PF	vis
ip.d_GAS4	3.11.E-03	%m	%wire diameter (4th GAS)	vis
ip.n_GAS4	1.00.E+00	%	%number of wires (4th GAS)	vis
ip.E_GAS4	1.86.E+11	%Pa	%wire youg's modulus (4th GAS)	vis
ip.tensile_GAS4	2.00.E+09	%Pa	%wire tensile strength (4th GAS)	vis
ip.loss_GAS4wire	TBD	%	%loss of wire (4th GAS)	vis
ip.lsus_GAS4	2.10.E+00	%m	%wire length btw 4th GAS filter and CB	vis
ip.dsus_GAS4	3.74.E-03	%m	%wire diameter (4th GAS)	vis,dgs,ael
ip.num_GAS4wire	1.00.E+00	%	%number of wires (4th GAS)	vis,dgs,ael
ip.m_payload	1.20.E+02	%kg	%total mass suspended by 4th GAS filter	vis
ip.radisu_BS	1.90.E-01	%m	%BS radius	mir,mif,aos
ip.thickness_BS	1.20.E-01	%m	%BS thickness	mir,mif,aos
ip.R_BS	5.00.E-01	%	%BS reflectivity	mir,mif
ip.loss_BS_HR	5.00.E-05	%	%BS HR surface optical loss	mir,mif
ip.loss_BS_AR	5.00.E-05	%	%BS AR surface reflectivity	mir,mif,aos
ip.RoC_BS	5.00.E+05	%m	%RoC of BS	mir,mif
ip.abso_BS	1.50.E-04	%1/m	%BS substrate absorption	mir,mif
ip.wedge_BS	3.83.E-01	%deg	%AR wedge of BS	mir,mif,vac,aos
ip.diameter_cryo8K	5.00.E-01	%m	%radiation shield diameter	cry,vac
ip.diameter_aperture	2.50.E-01	%m	%radiation shield aperture diameter	cry,vac,mif,aos
ip.diameter_tophole	1.50.E-01	%m	%top hole diameter (to SAS)	cry,vac,mif,vis
ip.heat_fromtop 	1.00.E-02	%W	%radiation from upper stages	cry,vac,vis,mif
ip_heat_fromBS	1.00.E-01	%W	%radiation from BS chamber	cry,vac,mif
ip.heat_fromArm 	1.00.E-01	%W	%radiation from arm cavity	cry,vac,mif
ip.heat_cryoshield	1.00.E-01	%W	%heat from radiation shield	cry,vac,mif
ip.heat_scatter_toshield	4.00.E+00	%W	%max heat from scattering light	cry,vac,mif,mir,aos
ip.heat_viewport	1.00.E-02	%W	%heat from view ports	aos,cry,vac,mif
ip.kappa_heatlink	4.00.E+03	%W/m/K	%heat link thermal conductivity at 10K	cry,vis
ip.num_viewport 	1.00.E+00	%	%number of view ports	aos,vac,mif,cry
ip.seis_cryostat	TBD	%	%vibration at cryostat	cry,vac,mif,tun,fcl
ip.Tm_cryo8K	8.00.E+00	%K	%inner shield temeprature	cry,vac,vis,mif
ip.Tm_cryo80K	8.00.E+01	%K	%duct shield temperature	cry,vac,vis,mif
ip.emissivity_vacuum	3.00.E-02	%	%duct emissivity	cry,vac
ip.noise_adc	2.00.E-06	%V/rtHz	%ADC noise	dgs,mif,ael,las,ioo,vis
ip.noise_dac	1.50.E-06	%V/rtHz	%DAC noise	dgs,mif,ael,las,ioo,vis
ip.sampling	1.64.E+04	%Hz	%sampling frequency	dgs,mif,ael,las,ioo,vis,das
ip.bandwidth	7.40.E+03	%Hz	%observation bandwidth	dgs,mif,das
ip.loopdelay	1.00.E-04	%sec	%loop time delay (>200Hz UGF)	dgs,mif,ael,las,ioo,vis,das
ip.max_adc	2.00.E+01	%V	%ADC maximum input voltage (+/-)	dgs,mif,ael,las,ioo,vis
ip.max_dac	1.00.E+01	%V	%DAC maximum output voltage (+/-)	dgs,mif,ael,las,ioo,vis
ip.error_IQ	1.00.E-02	%	%error of 90deg for I&Q LO	ael,mif,dgs
ip.aperture_rfpd_high	3.00.E-03	%m	%RF PD aperture (high power)	ael,mif
ip.aperture_rfpd_low	3.00.E-03	%m	%RF PD aperture (low power)	ael,mif
ip.aperture_dcpd_high	3.00.E-03	%m	%DC PD aperture (high power)	ael,mif
ip.aperture_dcpd_low	3.00.E-03	%m	%DC PD aperture (low power)	ael,mif
ip.input_rfpd_high	3.00.E-01	%W	%RF PD input power (high power)	ael,mif
ip.input_rfpd_low	1.00.E-01	%W	%RF PD input power (low power)	ael,mif
ip.input_dcpd_high	1.00.E-01	%W	%DC PD input power (high power)	ael,mif
ip.input_dcpd_low	1.00.E-02	%W	%DC PD input power (low power)	ael,mif
ip.RFHOMsuppression	TBD	%	%RF HOM suppression at LO distributor	ael,mif
ip.dcpowersupply	2.40.E+01	%V	%DC power supply	ael,mif
ip.tunnelsize	4.00.E+00	%m	%tunnel width/height	tun,fcl,vac,cry
ip.tilt_tunnel	3.33.E-03	%	%tunnel tilt (diff at ETM and ITM)	tun,fcl,vac,cry,mif,ioo
ip.diameter_borehole	1.20.E+00	%m	%diamter of borehole for SAS	tun,vis,fcl,vac
ip.flatness_flange	1.00.E-04	%m	%flange flatness	vac
ip.thickness_flange	3.00.E-02	%m	%flange thickness	vac
ip.vacuum	2.00.E-07	%Pa	%vacuum pressure	vac,mif,fcl
ip.diameter_duct	8.00.E-01	%m	%duct diameter	vac,cry,mif,aos
ip.num_pump	3.00.E+01	%	%number of pumps per arm	vac,fcl
ip.speed_ionpump	1.00.E+03	%L/s	%pumping speed of ion pump	vac,fcl
ip.speed_turbopump	2.00.E+03	%L/s	%pumping speed of turbo pump	vac,fcl
ip.num_gv800	4.00.E+00	%	%number of gv (DN800) per arm	vac,fcl
ip.num_gv1000	3.00.E+00	%	%number of gv (DN1000) per arm	vac,fcl
ip.Tm_room	2.90.E+02	%K	%room temperature	fcl,cry,mif,gif
ip.num_HL1	7.00.E+00	%	%number of HL1 (Sh-PF)	cry,vis
ip.RRR_HL1	4.00.E+03	%	%RRR of HL1 (Sh-PF)	cry,vis
ip.RoU_HL1	5.00.E-01	%m	%HL1 radius of U	cry,vis
ip.lsus_HL1	7.50.E-01	%m	%HL1 length	cry,vis
ip.ksus_HL1	TBD	%	%HL1 spring constant	cry,vis
ip.diameter_HL1 	1.00.E-03	%m	%HL1 diameter	cry,vis
ip.loss_HL1	5.00.E-05	%	%HL1 loss	cry,vis
ip.num_HL2	5.00.E+00	%	%number of HL2 (PF-IM)	cry,vis
ip.RRR_HL2	4.00.E+03	%	%RRR of HL2 (Sh-PF)	cry,vis
ip.RoU_HL2	4.00.E-01	%	%HL2 radius of U	cry,vis
ip.lsus_HL2	6.28.E-01	%m	%HL2 length	cry,vis
ip.ksus_HL2	TBD	%	%HL2 spring constant	cry,vis
ip.diameter_HL2 	3.00.E-03	%m	%HL2 diameter	cry,vis
ip.loss_HL2	5.00.E-05	%	%HL2 loss	cry,vis
ip.num_HL3	4.00.E+00	%	%number of HL3 (IM-RM)	cry,vis
ip.RRR_HL3	4.00.E+03	%	%RRR of HL3 (Sh-PF)	cry,vis
ip.RoU_HL3	3.00.E-01	%	%HL3 radius of U	cry,vis
ip.lsus_HL3	4.71.E-01	%	%HL3 length	cry,vis
ip.ksus_HL3	TBD	%	%HL3 spring constant	cry,vis
ip.diameter_HL3 	1.60.E-03	%	%HL3 diameter	cry,vis
ip.loss_HL3	5.00.E-05	%	%HL3 loss	cry,vis
ip.actuator_IM	TBD	%	%actuator power on IM	ael,mif,vis
ip.m_IM	6.00.E+01	%kg	%mass of IM	cry,vis
ip.RRR_IM	2.00.E+01	%	%RRR of IM	cry,vis
ip.width_IM	3.10.E-01	%m	%IM width	cry,vis
ip.depth_IM	2.00.E-01	%m	%IM depth	cry,vis
ip.thickness_IM 	1.10.E-01	%m	%IM thickness	cry,vis
ip.Tm_IM	TBD	%K	%temperature of IM	cry,vis
ip.emissivity_IM	2.00.E-02	%	%emmisivity of surface of IM	cry,vis
ip.Cs_IM	TBD	%	%specific heat of IM	cry,vis
ip.kappa_IM	TBD	%	%thermal conducutivity of IM	cry,vis
ip.num_IMwires	4.00.E+00	%	%number of wires (IM)	cry,vis
ip.E_IMwire	1.61.E+11	%Pa	%wire Young's modulus (IM)	cry,vis
ip.tensile_IM	5.00.E+09	%Pa	%wire tensile strength (IM)	cry,vis
ip.loss_Imwire	1.00.E-04	%	%loss	cry,vis
ip.kappa_Imwire 	TBD	%	%thermal conductivity	cry,vis
ip.lsus_IM	4.00.E-01	%m	%length	cry,vis
ip.dsus_IM	7.20.E-04	%m	%diameter	cry,vis
ip.rho_Imwire	1.93.E+04	%kg/m^3	%density	cry,vis
ip.Tm_Imwire	1.00.E+01	%K	%temperature of IM wire	cry,vis
ip.f_yaw_IM	TBD	%	%yaw-mode resonant frequency (IM)	cry,vis,mif,aos
ip.f_pitch_IM	TBD	%	%pitch-mode resonant frequency (IM)	cry,vis,mif,aos
ip.loss_yaw_IM	TBD	%	%yaw-mode loss (IM)	cry,vis,mif
ip.loss_pitch_IM	TBD	%	%pitch-mode loss (IM)	cry,vis,mif
ip.inertia_yaw_IM	TBD	%	%yaw-mode moment of inertia (IM)	cry,vis,mif,aos
ip.inertia_pitch_IM	TBD	%	%pitch-mode moment of inertia (IM)	cry,vis,mif,aos
ip.RIN_AF	TBD	%	%AF RIN 	mif,ioo,las,aos
ip.RIN_RF	1.00.E-09	%W/W/rtHz	%RF RIN (>15MHz)	mif,ioo,las,aos
ip.L_RC	1.50.E-01	%m	%Ref Cav length	ioo,aos
ip.finesse_RC	1.00.E+04	%	%Ref Cav finesse	ioo,aos
ip.power_FSS	1.00.E-01	%W	%pick-off power for FSS	ioo,mif,aos
ip.noise_FSSPD	1.00.E-09	%V/rtHz	%FSS PD noise level	ioo,mif,ael,aos
ip.noise_oscillator	-1.60.E+02	%dBc	%RF oscillator phase noise	ioo,ael,mif
ip.FI_extinction	4.00.E+01	%dB	%extinction ratio of Faraday Isolator	aos,ioo,mif
ip.laserpower	1.80.E+02	%W	%laser power	las,ioo,mif
ip.wavelength	1.06.E-06	%m	%wavelength	las
ip.FN	1.00.E+02	%Hz/rtHz	%free-run FN (at 100Hz)	las
ip.IN	1.00.E-04	%W/W/rtHz	%free-run IN	las
ip.laser_linewidth	TBD	%	%linewidth	las
ip.chiller	1.50.E+01	%deg	%chiller temperature	las
ip.laser_temperature	TBD	%	%Laser temperature	las
ip.RoC_MCin	5.00.E+05	%m	%MC-in RoC	mir,mif,ioo,aos
ip.RoC_MCout	5.00.E+05	%m	%MC-out RoC	mir,mif,ioo,aos
ip.RoC_MCend	4.00.E+01	%m	%MC-end RoC	mir,mif,ioo,aos
ip.diameter_MC	1.00.E-01	%m	%MC mirror diameter	mir,mif,ioo,aos
ip.thickness_MC 	3.00.E-02	%m	%MC mirror thickness	mir,mif,ioo,aos
ip.angle_MCend	5.42.E-01	%deg	%angle of incidence on MC-end	ioo,mif,aos
ip.w_MCend	4.38.E-03	%m	%beam radius on MC-end	ioo,mif,aos
ip.w_MCin	2.53.E-03	%m	%beam radius on MC-in	ioo,mif,aos
ip.w_MCout	2.53.E-03	%m	%beam radius on MC-out	ioo,mif,aos
ip.R_MCend	1.00.E+00	%	%MC-end reflectivity	ioo,mir,mif,aos
ip.R_MCin	9.94.E-01	%	%MC-in reflectivity	ioo,mir,mif,aos
ip.R_MCout	9.94.E-01	%	%MC-out reflectivity	ioo,mir,mif,aos
ip.L_MC	5.33.E+01	%m	%MC length (roundtrip)	ioo,vac,mif,aos
ip.finesse_MC	5.00.E+02	%	%MC finesse	ioo,mif,aos
ip.beamjitter_MC	TBD	%	%MC output beam jitter	ioo,mif,aos
ip.trans_MC	8.00.E-01	%	%MC transmittance	ioo,las
ip.noise_QPD	1.00.E-09	%V/rtHz	%QPD noise	ael,mif,ioo,dgs,aos
ip.centering	1.00.E-04	%m	%Beam centering error	aos,mif,ioo,mir
ip.drange_PD	TBD	%	%PD dynamic range	ael,dgs,mif,ioo,aos
ip.drange_QPD	TBD	%	%QPD dynamic range	ael,dgs,mif,ioo,aos
ip.contrastdefect	5.00.E-03	%	%contrast defect (alignment etc)	mif,aos
ip.R_ASp	0.00.E+00	%	%AS POM reflectivity (if any)	mif,mir,ioo,aos
ip.loss_PD	5.00.E-02	%	%1 - quantum efficiency (DC PD)	ael,mif,ioo,aos
ip.offset_arm	2.00.E-12	%m	%differential offset on arm cavities	mif,ioo
ip.detune	3.50.E+00	%deg	%detune phase	mif,ioo
ip.L_PRM_PR2	1.4761.E+01	%m	%PRM-PR2 distance	mif,vac,aos
ip.L_PR2_PR3	1.2067.E+01	%m	%PR2-PR3 distance	mif,vac,aos
ip.L_PR3_BS	1.4764.E+01	%m	%PR3-BS distance	mif,vac,aos
ip.L_SRM_SR2	1.4764.E+01	%m	%SRM-SR2 distance	mif,vac,aos
ip.L_SR2_SR3	1.2067.E+01	%m	%SR2-SR3 distance	mif,vac,aos
ip.L_SR3_BS	1.4764.E+01	%m	%SR3-BS distance	mif,vac,aos
ip.foldangle_PRC	6.293.E-01	%deg	%PRC folding angle	mif,vac,aos
ip.foldangle_SRC	6.293.E-01	%deg	%SRC folding angle	mif,vac,aos
ip.L_BS_ITM	2.50285.E+01	%m	%BS-ITM average distance	mif,vac,aos
ip.guoy_PRC	2.00.E+01	%deg	%Gouy phase shift in PRC	mif,aos
ip.guoy_SRC	2.00.E+01	%deg	%Gouy phase shift in SRC	mif,aos
ip.L_arm	3.00.E+03	%m	%arm length	mif,vac
ip.L_asym	3.33.E+00	%m	%asymmetry length	mif,vac,aos
ip.f1	1.69.E+07	%Hz	%f1 sideband frequencies	mif,ioo,aos
ip.mod_f1	2.00.E-01	%	%f1 sideband modulation depth at IFO	mif,ioo,aos
ip.f2	4.50.E+07	%Hz	%f2 sideband frequencies	mif,ioo,aos
ip.mod_f2	2.00.E-01	%	%f2 sideband modulation depth at IFO	mif,ioo,aos
ip.f3	3.94.E+07	%Hz	%f3 sideband freq (if any)	mif,ioo,aos
ip.mod_f3	0.00.E+00	%	%f3 sideband modulation depth at IFO (if any)	mif,ioo,aos
ip.dcvoltage	1.00.E-01	%V	%maximum DC voltage for demo signal	ael,mif,aos
ip.noise_PD	1.00.E-09	%V/rtHz	%electric noise on demo signal	ael,mif,aos
ip.UGF_CARM	1.00.E+04	%Hz	%CARM UGF	mif,vis,ael
ip.UGF_DARM	2.00.E+02	%Hz	%DARM UGF	mif,vis,ael
ip.UGF_PRCL	2.00.E+01	%Hz	%PRCL UGF	mif,vis,ael
ip.UGF_MICH	2.00.E+01	%Hz	%MICH UGF	mif,vis,ael
ip.UGF_SRCL	2.00.E+01	%Hz	%SRCL UGF	mif,vis,ael
ip.FF_PRCL	1.00.E+02	%	%PRCL FF gain	mif,vis,ael
ip.FF_MICH	1.00.E+02	%	%MICH FF gain	mif,vis,ael
ip.FF_SRCL	1.00.E+02	%	%SRCL FF gain	mif,vis,ael
ip.finesse_green	1.90.E+01	%	%Green arm finesse (ITM0.8-ETM0.9)	mif,mir,aos
ip.laserpower_green	1.00.E-01	%W	%Green Laser power	las,mif,ioo,aos
ip.freq_gap_green	1.00.E+08	%Hz	%Green laser's frequency gap (X and Y)	las,mif,ioo,aos
ip.R_BS_green	1.00.E-02	%	%BS reflectivity for green	mif,mir,aos
ip.R_PR2_green	1.00.E-02	%	%PR2 reflectivity for green	mif,mir,aos
ip.R_PR3_green	1.00.E-02	%	%PR3 reflectivity for green	mif,mir,aos
ip.R_SR2_green	1.00.E-02	%	%SR2 reflectivity for green	mif,mir,aos
ip.R_SR3_green	1.00.E-02	%	%SR3 reflectivity for green	mif,mir,aos
ip.rms	1.00.E-14	%m	%rms fluctuation of DARM	mif,vis
ip.diameter_MMT 	1.00.E-01	%m	%MMT mirror diameter	ioo,mir,aos
ip.thickness_MMT	3.00.E-02	%m	%MMT mirror thickness	ioo,mir,aos
ip.RoC_MMT1	-1.2258.E+01	%m	%MMT1 RoC	ioo,mir,aos
ip.RoC_MMT2	1.8146.E+01	%m	%MMT2 RoC	ioo,mir,aos
ip.L_MCout_MMT1 	6.133.E+00	%m	%distance of MC-waist and MMT1	ioo,mif,aos
ip.L_MMT1_MMT2	3.10.E+00	%m	%distance of MMT1 and MMT2	ioo,mif,aos
ip.L_MMT2_PRM	5.063.E+00	%m	%distance of MMT2 and PRM	ioo,mif,aos
ip.num_mirror_OMC	4.00.E+00	%	%number of mirrors (OMC)	ioo,mif,mir,aos
ip.loss_OMC	2.00.E-02	%	%OMC optical loss	ioo,mif,mir,aos
ip.L_OMC	1.74.E+00	%m	%OMC rt length	ioo,mif,aos
ip.finesse_OMC	7.00.E+02	%	%OMC finesse	ioo,mif,mir,aos
ip.mass_OMCplatform	TBD	%	%mass of OMC platform	ioo,vis
ip.reso_OMCsusp	TBD	%	%resonant freq of OMC suspension	ioo,vis
ip.num_mirror_PMC	4.00.E+00	%	%number of mirrors (PMC)	ioo,mir
ip.L_PMC	4.88.E-01	%m	%PMC length	ioo
ip.finesse_PMC	1.55.E+02	%	%PMC finesse	ioo,mir
ip.diameter_PRM 	2.50.E-01	%m	%PRM diamter	mir,mif,aos
ip.thickness_PRM	1.00.E-01	%m	%PRM thickness	mir,mif,aos
ip.diameter_PR2 	2.50.E-01	%m	%PR2 diamter	mir,mif,aos
ip.thickness_PR2	1.00.E-01	%m	%PR2 thickness	mir,mif,aos
ip.diameter_PR3	2.50.E-01	%m	%PR3 diameter	mir,mif,aos
ip.thickness_PR3	1.00.E-01	%m	%PR3 thickness	mir,mif,aos
ip.R_PRM	9.00.E-01	%	%PRM reflectivity	mif,mir,aos
ip.loss_PRM	1.00.E-04	%	%PRM optical loss	mif,mir,aos
ip.loss_PR2	1.00.E-04	%	%PR2 optical loss	mif,mir,aos
ip.loss_PR3	1.00.E-04	%	%PR3 optical loss	mif,mir,aos
ip.RoC_PRM	3.70.E+02	%m	%RoC of PRM	mif,mir,aos
ip.RoC_PR2	4.17.E+00	%m	%RoC of PR2	mif,mir,aos
ip.RoC_PR3	3.23.E+01	%m	%RoC of PR3	mif,mir,aos
ip.wedge_PRM	3.00.E-01	%deg	%wedge angle of PRM (horiz)	mif,mir,ioo,vac,aos
ip.m_RM	3.00.E+01	%kg	%mass of RMTM	vis,cry
ip.diameter_RMout	2.90.E-01	%m	%outer diameter	vis,cry
ip.diameter_RMin	2.60.E-01	%m	%inner diameter	vis,cry
ip.thickness_RM	2.60.E-01	%m	%thickness	vis,cry
ip.Tm_RM	1.50.E+01	%K	%temperature of RMTM	cry,vis
ip.emissivity_RM	2.00.E-02	%	%emmisivity of surface of RMTM	cry,vis
ip.Cs_RM	TBD	%	%specific heat of RMTM	cry,vis
ip.kappa_RM	TBD	%	%thermal conducutivity of RMTM	cry,vis
ip.kappa_RMwire 	TBD	%	%thermal conductivity (RM wire)	cry,vis
ip.lsus_RM	3.00.E-01	%m	%length (RM wire)	cry,vis
ip.dsus_RM	4.00.E-04	%m	%diameter (RM wire)	cry,vis
ip.num_RMwire	4.00.E+00	%	%number of fibers (RM)	cry,vis
ip.E_RMwire	1.30.E+11	%Pa	%Young's modulus (RM wire)	cry,vis
ip.rho_RMwire	8.36.E+03	%kg/m^3	%density (RM wire)	cry,vis
ip.Tm_RMwire	1.60.E+01	%K	%effective temperature (RM wire)	cry,vis
ip.loss_RMwire	5.00.E-06	%	%loss (RM wire)	vis,cry
ip.f_yaw_RM	TBD	%	%yaw-mode resonance (RM wire)	vis,cry
ip.f_pitch_RM	TBD	%	%pitch-mode resonance (RM wire)	vis,cry
ip.loss_yaw_RM	TBD	%	%yaw-mode loss (RM wire)	vis,cry
ip.loss_pitch_RM	TBD	%	%pitch-mode loss (RM wire)	vis,cry
ip.inertia_yaw_RM	TBD	%	%yaw-mode moment of inertia (RM wire)	vis,cry
ip.inertia_pitch_RM	TBD	%	%pitch-mode moment of inertia (RM wire)	vis,cry
ip.VHC	5.00.E-03	%	%Vertical horizontal coupling	vis,tun,mif,vac,fcl,gif
ip.adjust_range 	1.00.E-02	%m	%adjustable distance (DC)	vis,mif,ael
ip.actuate_range	TBD	%	%actuation range (AC)	ael,mif,vis
ip.noise_actuator	TBD	%	%actuator noise	ael,mif,vis
ip.rms_SAS	1.00.E-07	%m	%RMS displacement	vis,mif,dgs,ael
ip.rms_SAS_velocity	1.00.E-07	%m/s	%RMS velocity	vis,mif,dgs,ael
ip.rms_pitch	TBD	%	%RMS pitch	vis,mif,dgs,ael
ip.rms_yaw	TBD	%	%RMS yaw	vis,mif,dgs,ael
ip.cmrr_seis	TBD	%	%CMRR (3km)	tun,fcl,vis,vac
ip.cmrr_cutoff	TBD	%	%CMR cutoff frequency	tun,fcl,vis,vac
ip.diameter_SRM 	2.50.E-01	%m	%SRM diamter	mir,mif,aos
ip.thickness_SRM	1.00.E-01	%m	%SRM thickness	mir,mif,aos
ip.diameter_SR2 	2.50.E-01	%m	%SR2 diamter	mir,mif,aos
ip.thickness_SR2	1.00.E-01	%m	%SR2 thickness	mir,mif,aos
ip.diameter_SR3 	2.50.E-01	%m	%SR3 diameter	mir,mif,aos
ip.thickness_SR3	1.00.E-01	%m	%SR3 thickness	mir,mif,aos
ip.R_SRM	9.00.E-01	%	%SRM reflectivity	mif,mir,aos
ip.loss_SRM	1.00.E-04	%	%SRM optical loss	mif,mir,aos
ip.loss_SR2	1.00.E+04	%	%SR2 optical loss	mif,mir,aos
ip.loss_SR3	1.00.E+04	%	%SR3 optical loss	mif,mir,aos
ip.RoC_SRM	3.70.E+02	%m	%RoC of SRM	mif,mir,aos
ip.RoC_SR2	4.17.E+00	%m	%RoC of SR2	mif,mir,aos
ip.RoC_SR3	3.23.E+01	%m	%RoC of SR3	mif,mir,aos
ip.wedge_SRM	3.00.E-01	%deg	%wedge angle of SRM	mif,mir,ioo,vac,aos
ip.actuator_ITM 	TBD	%	%actuator power on ITM	ael,mif,vis,aos
ip.actuator_ETM 	TBD	%	%actuator power on ETM	ael,mif,vis,aos
ip.diamter_TM	2.20.E-01	%m	%TM diameter	mir,cry,mif,aos
ip.thickness_TM 	1.50.E-01	%m	%TM thickness	mir,cry,mif,aos
ip.Tm_TM	2.00.E+01	%K	%temperature	cry,mir,mif
ip.emissivity_TM	8.00.E-02	%	%emmisivity of surface of TM	cry,mir
ip.specificheat_TM	6.90.E-01	%J/K/kg	%specific heat of TM	cry,mir,vis
ip.kappa_TM	1.57.E+04	%W/m/K	%thermal conducutivity of TM	cry,mir,vis
ip.ear_distance 	2.46.E-01	%m	%distance of flat ear surfaces	mir,vis
ip.loss_sleeks	TBD	%	%scratches and sleeks loss	mir,mif,cry,aos
ip.loss_points	1.00.E-05	%	%point defects loss	mir,mif,cry,aos
ip.surfacerms_center	3.00.E-10	%m	%central region surface rms	mir,mif,aos
ip.surfacerms_outer	1.00.E-09	%m	%outer region surface rms	mir,mif,aos
ip.BRDF	1.40.E-05	%	%BRDF	mir,mif,aos,cry
ip.surfacecenter	1.20.E-01	%m	%border of central region	mir,mif,aos
ip.flatness_AR_TM	TBD	%	%AR side surface flatness	mir,mif,aos
ip.RoC_TM_fromAR	TBD	%	%ROC seen from AR side	mir,mif,aos
ip.birefringence	TBD	%	%birefringence	mir,mif,aos
ip.w_ETM	4.53.E-02	%m	%beam radius on ETM	mif,mir,ioo,aos
ip.w_ITM	3.43.E-02	%m	%beam radius on ITM	mif,mir,ioo,aos
ip.rho_ETM	4.00.E+03	%kg/m^3	%mirror bulk density of ETM	mir
ip.rho_ITM	4.00.E+03	%kg/m^3	%mirror bulk density of ITM	mir
ip.E_ETM	4.00.E+11	%Pa	%Young's modulus of ETM substrate	mir
ip.E_ITM	4.00.E+11	%Pa	%Young's modulus of ITM substrate	mir
ip.sigma_ETM	2.90.E-01	%	%mirror bulk Poisson ratio of ETM	mir
ip.sigma_ITM	2.90.E-01	%	%mirror bulk Poisson ratio of ITM	mir
ip.alpha_ETM	5.6.E-9	%1/K	%mirror thermal expansion of ETM	mir,cry
ip.alpha_ITM	5.6.E-9	%1/K	%mirror thermal expansion of ITM	mir,cry
ip.Cs_ETM	6.90.E-01	%J/K/kg	%mirror specific heat of ETM	mir,cry
ip.Cs_ITM	6.90.E-01	%J/K/kg	%mirror specific heat of ITM	mir,cry
ip.kappa_ETM	1.57.E+04	%W/m/K	%mirror thermal conductivity of ETM	mir,cry
ip.kappa_ITM	1.57.E+04	%W/m/K	%mirror thermal conductivity of ITM	mir,cry
ip.mloss_ETM	1.00.E-08	%	%mirror mechanical loss of ETM	mir,mif,cry
ip.mloss_ITM	1.00.E-08	%	%mirror mechanical loss of ITM	mir,mif,cry
ip.E.coat_silica	7.20.E+10	%Pa	%silica coating Youngs modulus	mir,cry
ip.E_coat_tantala	1.40.E+11	%Pa	%tantala coating Youngs modulus	mir,cry
ip.sigma_coat_silica	1.70.E-01	%	%silica coating Poisson ratio	mir,cry
ip.sigma_coat_tantala	2.30.E-01	%	%tantala coating Poisson ratio	mir,cry
ip.mloss_coat_silica	3.00.E-04	%	%silica coating loss	mir,mif,cry
ip.mloss_coat_tantala	5.00.E-04	%	%tantala coating loss	mir,mif,cry
ip.Cv_coat_silica	1.64.E+06	%J/K/m^3	%silica coating specific heat per volume	mir,cry
ip.Cv_coat_tantala	2.10.E+06	%J/K/m^3	%tantala coating specific heat per volume	mir,cry
ip.alpha_coat_silica	5.10.E-07	%1/K	%silica coating thermal expansion	mir,cry
ip.alpha_coat_tantala	3.60.E-06	%1/K	%tantala coating thermal expansion	mir,cry
ip.alpha_coat_silica	1.38.E+00	%W/m/K	%silica coating thermal conductivity	mir,cry
ip.alpha_coat_tantala	3.30.E+01	%W/m/K	%tantala coating thermal conductivity	mir,cry
ip.num_coat_ETM 	1.80.E+01	%	%number of layers on ETM	mif,mir
ip.num_coat_ITM 	9.00.E+00	%	%number of layers on ITM	mif,mir
ip.abso_AR	1.00.E-06	%	%AR surface absorption	mir,cry,mif,aos
ip.R_ETM	1.00.E+00	%	%ETM reflectivity	mif,mir,aos
ip.R_ITM	9.96.E-01	%	%ITM reflectivity	mif,mir,aos
ip.loss_ETM	4.50.E-05	%	%ETM optical loss	mir,mif,aos
ip.loss_ITM	4.50.E-05	%	%ITM optical loss	mir,mif,aos
ip.loss_imbalance	1.50.E-05	%	%optical loss imbalance	mir,mif,aos
ip.finesse_imbalance	5.00.E-03	%	%finesse imbalance rate	mir,mif,aos
ip.loss_ITMsubstrate	5.00.E-03	%1/m	%ITM substrate optical loss	mir,mif,cry,aos
ip.abs_coat	1.00.E-06	%	%absorption at coating	mir,mif,cry,aos
ip.loss_AR_ITM	1.00.E-04	%	%ITM AR surface optical loss	mir,mif,cry,aos
ip.m_ETM	2.28.E+01	%kg	%ETM mass	mif,mir
ip.m_ITM	2.28.E+01	%kg	%ITM mass	mif,mir
ip.RoCerror_ETM	1.00.E-02	%	%RoC error of ETM	mir,mif,aos
ip.RoCerror_ITM 	1.00.E-02	%	%RoC error of ITM	mir,mif,aos
ip.RoC_ETM	7.00.E+03	%m	%RoC of ETM	mir,mif,aos
ip.RoC_ITM	5.00.E+05	%m	%RoC of ITM	mir,mif,aos
ip.RoCerror_diff	5.00.E-03	%	%RoC imbalance in two arms	mir,mif,aos
ip.wedge_ETM	3.00.E-01	%deg	%wedge angle of ETM	mir,mif,vac,aos
ip.wedge_ITM_sap	2.00.E-01	%deg	%wedge angle of ITM (sapphire)	mir,mif,vac,aos
ip.wedge_ITM_sil	3.35.E-01	%deg	%wedge angle of ITM (silica)	mir,mif,vac,aos
ip.kappa_fiber_TM	7.00.E+03	%W/m/K	%thermal conductivity at 20K (TM fiber)	vis,cry
ip.lsus_TM	3.00.E-01	%m	%length (TM)	vis,cry
ip.dsus_TM	1.60.E-03	%m	%diameter (TM)	vis,cry
ip.num_TMfiber	4.00.E+00	%	%number of fibers (TM)	vis,cry
ip.E_TMfiber	4.00.E+11	%Pa	%Young's modulus (TM fiber)	vis,cry
ip.rho_TMfiber	4.00.E+03	%kg/m^3	%density (TM fiber)	vis,cry
ip.Tm_TMfiber	1.60.E+01	%	%effective temperature (TM)	vis,cry
ip.mloss_TMfiber	2.00.E-07	%	%loss (TM fiber)	vis,cry
ip.f_yaw_TM	TBD	%	%yaw-mode resonant frequency (TM)	vis,cry,aos
ip.f_pitch_TM	TBD	%	%pitch-mode resonant frequency (TM)	vis,cry,aos
ip.loss_yaw_TM	TBD	%	%yaw-mode loss (TM)	vis,cry
ip.loss_pitch_TM	TBD	%	%pitch-mode loss (TM)	vis,cry
ip.inertia_yaw_TM	TBD	%	%yaw-mode moment of inertia (TM)	vis,cry
ip.inertia_pitch_TM	TBD	%	%pitch-mode moment of inertia (TM)	vis,cry
ip.thermometer	TBD	%	%thermometer resolution	gif,mif,das,dgs,fcl,vis
ip.barometer	TBD	%	%barometer resolution	gif,mif,das,dgs,fcl,vac,vis
ip.seismometer	TBD	%	%seismometer resolution	gif,mif,das,dgs,vis,fcl,tun
ip.particlemeter	TBD	%	%particle meter resolution	gif,mif,das,dgs,vac,fcl,tun,vis
ip.microphone	TBD	%	%microphone resolution	gif,mif,das,dgs,fcl,vis
ip.hygrometer	TBD	%	%hygrometer resolution	gif,mif,das,dgs,fcl,vac,vis
ip.accelerometer	TBD	%	%accelerometer resolution	gif,mif,das,dgs,vis
ip.clean_manu	1.00.E+1	%	%cleanliness in manufacture rooms	fcl,mir	
ip.clean_lab	1.00.E+2	%	%cleanliness in lab	fcl,mir	
ip.clean_buil	1.00.E+3	%	%cleanliness in buildings	fcl,mir	
ip.emissiv_baf_TM	TBD	%	%emissivity of baffle near TM	aos,cry,mir
ip.emissiv_baf_rs	TBD	%	%emissivity of baffle on radiation shield	aos,cry,mir
ip.outFI_extinction	4.00.E+01	%dB	%extinction ratio of output Faraday Isolator	aos,ioo,mif
ip.loss_outFI	2.00.E-02	%	%optical loss of output Faraday Isolator	aos,ioo,mif