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 # Review Statement
 We have reviewed the implementation of a test of general relativity using deviations in the spin-induced quadrupole moment. The method was introduced in Phys. Rev. Lett. 119, 091101(2017), and there was a detailed follow-up in Phys. Rev. D 100, 104019 (2019). 
 
-The review page is here: https://git.ligo.org/nv.krishnendu/lalsuite/-/wikis/home
+The review page is [here](https://git.ligo.org/nv.krishnendu/lalsuite/-/wikis/home).
 
 The inspiral part of lalsimulation waveforms are parameterized in terms of spin-induced quadrupole moments (\kappa_1, \kappa_2) through the post-Newtonian approximation. These spin-induced quadrupole moments characterize the nature of compact objects in the binary. In GR, black holes have \kappa_1 = \kappa_2 =1, however, a black-hole mimicker (e.g., wormholes, garavastar, etc) can have values other than 1. 
 
 This test proposes a null test of BBH nature of a CBC by introducing deviations from the black hole value as, \kappa_1= 1+\delta \kappa_1 and \kappa_2=1+\delta\kappa_2. Using LALInference the pipeline produces posterior distributions on \delta \kappa_1, \delta \kappa_2 and their symmetric combinations \delta \kappa_s and \delta \kappa_a. In GR, for black holes \delta \kappa_1=0 and \delta \kappa_2=0. Hence, if GR is correct, we expect the posteriors on the deviations to be consistent with zero.
 
-We have done a line-by-line code review here: https://git.ligo.org/nv.krishnendu/lalsuite/-/wikis/Code-review
+We have done a line-by-line code review [here](https://git.ligo.org/nv.krishnendu/lalsuite/-/wikis/Code-review).
 
 We have reviewed results from the analysis on O1 and O2 events. The results are consistent with the ones in Phys. Rev. D 100, 104019 (2019) and have been understood. The results are summarized here: https://git.ligo.org/nv.krishnendu/lalsuite/-/wikis/Results-review#real-data