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Thu Aug 6 00:34:38 2020, Yehonathan, Update, BHD, Monte Carlo Simulations 8x
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Fri Aug 7 11:23:47 2020, rana, Update, BHD, Monte Carlo Simulations
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Mon Aug 10 07:13:00 2020, Yehonathan, Update, BHD, Monte Carlo Simulations 8x
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Tue Aug 25 05:51:29 2020, Yehonathan, Update, BHD, Monte Carlo Simulations 8x
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Mon Sep 14 07:50:01 2020, Yehonathan, Update, BHD, Monte Carlo Simulations 10x
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Fri Oct 16 09:16:37 2020, Yehonathan, Update, BHD, Monte Carlo Simulations 8x
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Thu Oct 22 11:48:08 2020, Yehonathan, Update, BHD, Monte Carlo Simulations 8x
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Thu Dec 10 14:48:00 2020, Yehonathan, Update, BHD, Monte Carlo Simulations 
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Fri Dec 11 09:28:52 2020, rana, Update, BHD, Monte Carlo loop coupling Simulations
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Mon Dec 14 11:09:28 2020, Yehonathan, Update, BHD, Monte Carlo loop coupling Simulations 
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Mon Jan 11 16:11:51 2021, Yehonathan, Update, BHD, Monte Carlo loop coupling Simulations
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Mon Jan 11 19:10:10 2021, rana, Update, BHD, Monte Carlo loop coupling Simulations
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Message ID: 15509
Entry time: Fri Aug 7 11:23:47 2020
In reply to: 15507
Reply to this: 15512
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Author: |
rana |
Type: |
Update |
Category: |
BHD |
Subject: |
Monte Carlo Simulations |
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that's great. I think we would like to figure out how to present this so that its clear what the distribution of TFs is. Maybe we can plot the most likely curve as well as a shaded region indicating the 5% and 95% values?
Quote: |
I've pushed an MCMC simulation to the A+ BHD repo (filename MCMC_TFs.ipynb). The idea is to show how random offsets around ideal IFO change the noise couplings of different DOFs to readout.
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and then we add the loops |