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Entry  Thu Mar 20 18:09:33 2014, tara, Notes, NoiseBudget, extracting phiL phiH Hong_coat_BR.zip
    Reply  Thu Mar 20 21:54:10 2014, Evan, Notes, NoiseBudget, extracting phiL phiH 
    Reply  Sat Mar 22 19:17:31 2014, tara, Notes, NoiseBudget, extracting phiL phiH hong_hist.pnghong_hist.fig
       Reply  Sun Mar 23 17:32:42 2014, tara, Notes, NoiseBudget, extracting phiL phiH phi_young_ta2o5.pngBR_Y_ta2o5.pngBR_Y_ta2o5.figphi_young_ta2o5.fig
          Reply  Mon Mar 24 20:56:35 2014, tara, Notes, NoiseBudget, extracting phiL phiH 
             Reply  Tue Mar 25 14:37:54 2014, tara, Notes, NoiseBudget, extracting phiL phiH phi_Y.JPG
                Reply  Wed Mar 26 21:53:50 2014, tara, Notes, NoiseBudget, extracting phiL phiH Penn2003_tab2.pngPSL1416_fig1.pngPSL1416_fig1.figphi_result.m.zip
                   Reply  Sat Mar 29 23:32:50 2014, tara, Notes, NoiseBudget, extracting phiL phiH PennLVCmarch2010.png
          Reply  Tue Mar 25 20:47:19 2014, Evan, Notes, NoiseBudget, extracting phiL phiH eratiosweep.pdf
Message ID: 1410     Entry time: Thu Mar 20 21:54:10 2014     In reply to: 1408
Author: Evan 
Type: Notes 
Category: NoiseBudget 
Subject: extracting phiL phiH 

Quote:

 

phiL x10^-4 phiH x10^-4
0.1 9.6
0.5 9.05
1 8.33
1.5 7.61
2 6.89
3 5.35
 

 

 

 I independently computed the Hong result using the same assumptions (bulk and shear loss angles are equal, and no light penetration). I find

phiL x10^-4 phiH x10^-4
0.1 9.6
0.5(3) 9.0(6)
1.0(2) 8.3(5)
1.5 7.6
2.0 6.9
3.0 5.5

where I have included uncertainties for the Penn and Crooks measurements.

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