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Scattering loss (Hiro CIT on April 11, 2007 G0702401 Extra loss ~ 40ppm / mirror microroughness = 4~5 ppm? Visibility, recycling gain, large.

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Presentation on theme: "Scattering loss (Hiro CIT on April 11, 2007 G0702401 Extra loss ~ 40ppm / mirror microroughness = 4~5 ppm? Visibility, recycling gain, large."— Presentation transcript:

1 Scattering loss (Hiro Yamamoto) @ CIT on April 11, 2007 G0702401 Extra loss ~ 40ppm / mirror microroughness = 4~5 ppm? Visibility, recycling gain, large angle scatterometer, etc are consistent with 150 ppm loss per arm known loss per arm  surface figure (  20-30 ppm / mirror x 2  ETM transmission : 7 ppm  absorption : 4ppm / mirror x 2  diffractive loss : 2ppm 150 - known = 80 ppm / arm or 40 ppm / mirror FFT calculation with phasemaps(  extra loss as a free parameter

2 Scattering loss (Hiro Yamamoto) @ CIT on April 11, 2007 G0702402 Advanced LIGO total arm loss budget = 70ppm known loss : ~ 50 ppm / arm  diffraction : 0.4 ppm  absorption : 0.5 ppm x 2  surface figure : 20ppm x 2  ETM transmission : 7 ppm 11 ppm / mirror for microroughness and all other losses LIGO I mirror : 40 ppm

3 Scattering loss (Hiro Yamamoto) @ CIT on April 11, 2007 G0702403 Summary rms = 0.17 nm loss = 5.5ppm 3.8cm -1 CSIRO rms FFT 20-30ppm + 10 ppm non smooth scattering (C 1D->2D =1.2) Bill’s scatterometer H1 ETMy ? ? Liyuan’s integrating sphere 20ppm? CSIRO polished surface Mike ITMy [1] fit = 7e -19 f -1.45 rms = 0.33 nm loss = 21ppm [2] [3] [4] [5]

4 Scattering loss (Hiro Yamamoto) @ CIT on April 11, 2007 G0702404 CSIRO RMS = 0.5 x true RMS 1d topo data - tilt - curvature using 1024 data points  rms = 0.17nm generate data using spectrum f -2  rms = 0.12 using raw data  rms = 0.064 using data with  tilt and curvature subtracted loss ~ rms 2

5 Scattering loss (Hiro Yamamoto) @ CIT on April 11, 2007 G0702405 Integrating sphere data Liyuan ? 1cm x 1cm 0.2mm beam size 0.1mm step mean

6 Scattering loss (Hiro Yamamoto) @ CIT on April 11, 2007 G0702406 Point scattering loss ~ 10ppm      »  cut ppm bad points 1.5 ° point scattering : uniform ~10 ppm smooth roughness : BRDF(θ)~θ -2.45 loss(>3.8cm -1 ) = (1.5 ° /380    x 15ppm = 100 ppm

7 Scattering loss (Hiro Yamamoto) @ CIT on April 11, 2007 G0702407 Fine structure in mm region

8 Scattering loss (Hiro Yamamoto) @ CIT on April 11, 2007 G070240 loss per mirror with different FFT bin size or loss from different frequency Loss calculated using a bin size : assume no loss with spatial frequency longer than 1/bin size loss(1/bin2) - loss(1/bin1) = loss coming spatial freq between 1/bin2 - 1/bin1 should analyze with proper 2D down sampling ?

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