5094
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5209
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Deletions are marked like this. | Additions are marked like this. |
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||RF freq 2 || 45.00M (PM) || ||Hz|| ||MC1 length || 13.324109 || ||m|| ||MC2 length || B) 13.324109 || ||m|| ||MC1 Finesse || X-( TBD || || || ||MC2 Finesse || X-( TBD || || || ||<bgcolor="#FFFF00":colspan="4"> '''Parameters of interferometer''' || ||Arm cavity Finesse || B) 1546 || || || ||Arm power gain || B) 9984 = 960 x 10.4 || || || ||Arm power (single arm)<<FootNote(Arm power was defined by sum of both arm powers. It should be a stored power of single arm.)>> || 420.5 B) \= 374.4 = 75 *9984 /2|| ||kW|| ||Arm cavity cut-off frequency || || ||Hz|| ||PR gain || B) 10.4 || || || ||PRC power on BS || B) 876 || ||W|| ||PR cavity cut-off frequency || || ||Hz|| ||PR-Arm cut-off frequency || || ||Hz|| ||SR gain || 11 || || || ||Signal band || || ||Hz|| ||MICH contrast || || || || ||Other losses in PRC || || || || ||Other losses in SRC || || || || |
||RF freq 2 || 45.00M (AM) || ||Hz|| ||<bgcolor="#FFFF00":colspan="4"> '''Primary parameters of interferometer''' || ||Arm cavity Finesse || 1546 || || || ||Arm cavity power gain || 960 || || || ||PR gain || 10.4 || || || ||Arm power (single arm)<<FootNote(Arm power was defined by sum of both arm powers. It should be a stored power of single arm.)>> || 374k = 75 * 10.4 * 960 /2|| ||W|| ||PRC power on BS || 780 = 75 * 10.4 || ||W|| |
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||Arm cavity length || 3006.69 || ||m|| | ||Arm cavity length || 3000 || ||m|| |
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||SRC detuning phase|| 86.5 <:( 3.4 ??? || 90.0 ||degree|| | ||SRC detuning phase|| 86.5 || 90.0 ||degree|| ||<bgcolor="#FFFF00":colspan="4"> '''Mirror optical properties''' || ||EM Reflectivity || 0.999945 || || || ||FM Reflectivity || 0.996000 || || || ||PRM Reflectivity || 0.900000 || || || ||SRM Reflectivity || 0.846400 = 0.92^2^ || || || ||BS Reflectivity || 0.5 || || || ||HR Coating Loss of EM, FM, PRM and SRM || 45e-6 || || || ||BS Loss || 100e-6 || || || || Transmissivity || 1 - R - Loss || || || ||AR Transmissivity || 0.999 || || || ||AR Coating Loss || :-? 1000e-6 || || || || || || || || ||Bulk loss (absorption) (large optics ??? for Sapphire: ???FM, EM) || :-? 20 || || ppm || ||Bulk loss (absorption) (small optics ??? for Fused Silica: ???) || :-? 2.5 || || ppm || || || || || || ||Arm cavity cut-off frequency || || ||Hz|| ||PR cavity cut-off frequency || || ||Hz|| ||PR-Arm cut-off frequency || || ||Hz|| ||SR gain || 24 || || || ||Signal band || || ||Hz|| ||MICH contrast || || || || ||Other losses in PRC || || || || ||Other losses in SRC || || || || || || || || || |
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||<bgcolor="#FFFF00":colspan="4"> '''Mirror optical properties''' || ||EM Reflectivity || 0.999945 || || || ||FM Reflectivity || 0.996 || || || ||PRM Reflectivity || 0.9 || || || ||SRM Reflectivity || 0.8464 = 0.92^2^ || || || ||BS Reflectivity || 0.5 || || || ||HR Coating Loss of EM, FM, PRM and SRM || 45e-6 || || || ||BS Loss || 100e-6 || || || || Transmissivity || 1 - R - Loss || || || ||AR Transmissivity || 0.999 || || || ||AR Coating Loss || :-? 1000e-6 || || || |
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||Bulk loss (absorption) (large optics ??? for Sapphire: ???FM, EM) || :-? 20 || || ppm || ||Bulk loss (absorption) (small optics ??? for Fused Silica: ???) || :-? 2.5 || || ppm || |
||<bgcolor="#FFFF00":colspan="4"> '''Mode Cleaner''' || ||MC1 length || B) 10.0 || ||m|| ||MC2 length || B) 13.324109 || ||m|| ||MC1 Finesse || X-( TBD || || || ||MC2 Finesse || X-( TBD || || || |
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Interferometer Parameters
Old parameter sets (before 2010)
(Classical-noise parameters are here) Parameter LCGT VRSE-D1 LCGT VRSE-B units Laser source Wave length 1064 nm Initial Laser Power 150 W Injecting Laser Power into IFO 78.48 (in total), 75 (carrier) W Modulation depth 0.3 for both RF freq 1 11.25M (PM) Hz RF freq 2 45.00M (AM) Hz Primary parameters of interferometer Arm cavity Finesse 1546 Arm cavity power gain 960 PR gain 10.4 Arm power (single arm)2 374k = 75 * 10.4 * 960 /2 W PRC power on BS 780 = 75 * 10.4 W Cavity Length Arm cavity length 3000 m PR cavity length 73.2826 m Asymmetry length 3.33103 m BS-FM length 25 m SR cavity length 73.2826 m SRC detuning phase 86.5 90.0 degree Mirror optical properties EM Reflectivity 0.999945 FM Reflectivity 0.996000 PRM Reflectivity 0.900000 SRM Reflectivity 0.846400 = 0.922 BS Reflectivity 0.5 HR Coating Loss of EM, FM, PRM and SRM 45e-6 BS Loss 100e-6 Transmissivity 1 - R - Loss AR Transmissivity 0.999 AR Coating Loss 1000e-6 Bulk loss (absorption) (large optics ??? for Sapphire: ???FM, EM) 20 ppm Bulk loss (absorption) (small optics ??? for Fused Silica: ???) 2.5 ppm Arm cavity cut-off frequency Hz PR cavity cut-off frequency Hz PR-Arm cut-off frequency Hz SR gain 24 Signal band Hz MICH contrast Other losses in PRC Other losses in SRC Mirror geometries EM mass 30 kg FM mass 30 kg PRM mass TBD kg SRM mass TBD kg BS mass TBD kg EM ROC 7113.900 m FM ROC 7113.900 m FM AR ROC TBD m PRM ROC TBD m SRM ROC TBD m BS ROC Infinity m EM radius/thickness 25 / 15 cm FM radius/thickness 25 / 15 cm PRM radius/thickness TBD cm SRM radius/thickness TBD cm BS radius/thickness TBD cm Mode Cleaner MC1 length 10.0 m MC2 length 13.324109 m MC1 Finesse TBD MC2 Finesse TBD Output Mode Cleaner OMC length 1.5 m OMC Finesse 2000 OMC input/output mirror reflectivity TBD OMC end mirror reflectivity TBD OMC MC FSR ??? MHz DC readout phase 134.7 121.8 degree Control Bandwidth Quantum efficiency 0.9 CARM control band width 30k Hz DARM control band width 200 Hz PRC control band width 50 Hz MICH control band width 50 Hz SRC control band width 50 Hz Feed-Forward gain -0.97 (openloop), 1/(1-0.97) = 30 (closed loop)
To do list to define parameters for 2009
Reference
Arm power was defined by sum of both arm powers. It should be a stored power of single arm. (2)