deletions | additions       diff --git a/subsection_The_Liu_Quasar_Pair__.tex b/subsection_The_Liu_Quasar_Pair__.tex  index 56c2ceb..aaadbc4 100644  --- a/subsection_The_Liu_Quasar_Pair__.tex  +++ b/subsection_The_Liu_Quasar_Pair__.tex 
...
The quasar pair catalogue sample used in this project is obtained from \cite{Liu_2011}. This catalogue has 1286 AGN pairs in the redshift range $0.02 < z <0.33$. some of the criteria of the sample AGN includes angular separation, transverse proper separation, line of sight (LOS) velocity offset. \cite{Liu_2011} AGN that make up the parent sample are mostly optically-selected from the spectroscopic sample of the SDSS DR7. The SDSS DR7 consists of 105 783 objects .Further selection criteria are applied to refine the parent sample to ensure the study of genuinely interacting AGN pairs rather than chance superpositions. By using line of sight (LOS) velocity differences (or offset) where LOS velocity is the velocity measured along the line of sight of an observer, and transverse separation - the projected distance within the LOS direction - $r_{p}$. Liu et al claims to significantly increase the probability that genuine AGN pairs are selected.  The velocity offset – remove removes  chance superpositions. ${100h_{70}}^{-1}$ is the Hubble constant, which accounts for /is a measure of the expansion rate of the Universe ( more details in \cite{Huchra_1992}). Lui et al further observes that most pairs with separation greater than 100 kpc are found to be closely separated but not interacting with one another. Selecting those with separation less than 100 kpc helps remove these points that are not a part of our sample space. It is surprising to note that 100 kpc is larger than the thresholds used in other galaxy pair studies namely (as cited in \cite{Liu_2011}), but Lui et al does not explain why 100 kpc The separation between merging AGN  is used as a few galactic diameters for  the threshold. average galaxy.  Lui et al further Justifies the use a LOS velocity offset $ \Delta v < 600 km s^{-1}$ as a method to further refine the desired sample space. Plotting the distribution of $\Delta v$ of AGN pairs (Figure 2 provided in \cite{Liu_2011}) shows us that that most AGN pairs in the catalogue are found within the $300 ≲ \Delta v < 600 km s^{-1} $interval. Even so, Lui et al further states that $Delta v$ range within which the pair is still interacting depends on the environment – there could be a chance that some data point were erroneously cut from the sample.