@@ -11,7 +11,7 @@ Fig.3 No.5 signal with mass ratio q = 8, random seed = 10000.
## (2) Bilby
### (i) No.5 signal
We still use No.5 signal with mass ratio q = 8, M=150, d=5.
Note that the detector noises used here are different from the ones put into VItamin. This is because, Bilby generates detector noise in a different way (A Gaussian white noise in the complex domain, and the standard deviation sigma = 0.5*duration**0.5. See here https://git.ligo.org/lscsoft/bilby/-/blob/master/bilby/core/utils.py#L322 ).
Note that the detector noises used here are different from the ones put into VItamin, which are showed in section above. This is because, Bilby generates detector noise in a different way (A Gaussian white noise in the complex domain, and the standard deviation sigma = 0.5*duration**0.5. See here https://git.ligo.org/lscsoft/bilby/-/blob/master/bilby/core/utils.py#L322 ).
We haven't adopted its method yet.
We use spinning BBH template to do PE run. Fig.4 and Fig.5 have totally the same parameters and noise, just to verify the stability of Bilby's results. To my surprise, it changes a lot.
Fig.4 No.5 signal with mass ratio q = 8, random seed = 100.
