deletions | additions       diff --git a/Among_the_measurable_quantities_associated__.tex b/Among_the_measurable_quantities_associated__.tex  index 1e9f2b1..7243054 100644  --- a/Among_the_measurable_quantities_associated__.tex  +++ b/Among_the_measurable_quantities_associated__.tex 
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%  %A unified \emph{ab initio} theoretical approach suitable for different projectiles and energies is in its developing stages \cite{Pruneda_2007,Schleife_2015,Ullah_2015}. For calculating electronic stopping and radiation damage in metals there are few reviews (for example, Ref.~\cite{Race_2010} and references therein).  Using a quantal method based on TDDFT, Kohn-Sham (KS) scheme of time-dependent density functional theory (TDDFT) where the KS wave functions are expanded in a basis set of spherical harmonics,  Quijada {\emph et al} \cite{Quijada_2007} have studied the energy loss of protons and anti-protons moving inside metallic $\mathrm{Al}$ (spherical Jellium) clusters and obtained good results for the projectile-target energy transfer over a restricted energy range. Recently Uddin {\emph et al.} \cite{Alfaz_Uddin_2013} and Haque {\emph et al.} \cite{Haque_2015} have calculated stopping cross sections for various media using atomic density functions from Dirac-Hartree-Fock-Slater wave functions in the Lindhard-Schraff theory \cite{Lindhard_Scharff} with fitted parameters and obtained close agreement with the experimental and \textsc{Srim} data.