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Update Results review authored by ABHIRUP GHOSH's avatar ABHIRUP GHOSH
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...@@ -94,6 +94,7 @@ The analysis is performed for systems with a fixed spin magnitude of (0.4, 0.3). ...@@ -94,6 +94,7 @@ The analysis is performed for systems with a fixed spin magnitude of (0.4, 0.3).
|20+10|122|[Link](https://ldas-jobs.ligo-wa.caltech.edu/~nv.krishnendu/LSC/lalinference/inj_rev/run_dir/20_10_uu/p4p3/)|| |20+10|122|[Link](https://ldas-jobs.ligo-wa.caltech.edu/~nv.krishnendu/LSC/lalinference/inj_rev/run_dir/20_10_uu/p4p3/)||
|25+5|122|[Link](https://ldas-jobs.ligo-wa.caltech.edu/~nv.krishnendu/LSC/lalinference/inj_rev/run_dir/25_5_uu/p4p3/)|| |25+5|122|[Link](https://ldas-jobs.ligo-wa.caltech.edu/~nv.krishnendu/LSC/lalinference/inj_rev/run_dir/25_5_uu/p4p3/)||
**Comments**: For equal mass binaries, systems with both spins anti-aligned wrt the orbital angular momentum, are better for constraining the parameter space of \delta\kappa_s < 0, while systems with both spins aligned with the orbital angular moment, are better for constraining the parameter space for \delta\kappa_s > 0. For highly unequal mass binaries, the spin on the primary compact becomes significant in determining chi_eff, and depending on its orientation wrt \vec{L} determines the constraints on the parameter space.
## Effect of SNR ## Effect of SNR
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