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\section{Contents of a \dir{deposition} directory}\label{sect:depositiondir}
This directory accumulates energy and charge deposition information gathered from coupled solutions of the Boltzmann and/or Boltzmann
Fokker-Planck transport equations.
\subsection{State vector content for the \dir{deposition} data structure}\label{sect:depositionstate}
The dimensioning parameters for this data structure, stored in the state vector
$\mathcal{S}^{dep}_{i}$, represent:
\begin{itemize}
\item The number of material mixtures $N_{\rm mix}=\mathcal{S}^{dep}_{1}$
\item The number of particules contributing to deposition $N_{\rm part}=\mathcal{S}^{dep}_{2}$
\item Charge deposition index $I_{\rm c}=\mathcal{S}^{dep}_{3}$:
\begin{displaymath}
I_{\rm c} = \left\{
\begin{array}{ll}
0 & \textrm{no charge deposition information}\\
1 & \textrm{charge deposition information is present.}
\end{array} \right.
\end{displaymath}
\item The number of Boltzmann transport equation iterations $N_{\rm iter}=\mathcal{S}^{dep}_{4}$
\end{itemize}
\subsection{The main \dir{deposition} directory}\label{sect:depositiondirmain}
On its first level, the following records and sub-directories will be found in the \dir{deposition} directory:
\begin{DescriptionEnregistrement}{Main records and sub-directories in \dir{deposition}}{6.0cm}
\CharEnr
{SIGNATURE\blank{3}}{$*12$}
{Signature of the data structure ($\mathsf{SIGNA}=${\tt L\_DEPOSITION})}
\IntEnr
{STATE-VECTOR}{$40$}
{Vector describing the various parameters associated with this data structure $\mathcal{S}^{dep}_{i}$,
as defined in \Sect{depositionstate}.}
\CharEnr
{PARTICLE-NAM}{($N_{\rm part}$)$*1$}
{Character name associated to each particle.}
\RealEnr
{VOLUME\blank{6}}{$N_{\rm mix}$}{cm$^{3}$}
{Volumes.}
\DbleEnr
{FLUX-NORM\blank{3}}{$1$}{$1$}
{Flux normalization factor.}
\DbleEnr
{EDEPOS\blank{6}}{$N_{\rm mix},N_{\rm part}$}{MeV$\cdot$cm$^{-3}\cdot$s$^{-1}$}
{Energy deposition.}
\OptDbleEnr
{CDEPOS\blank{6}}{$N_{\rm mix},N_{\rm part}$}{$I_{\rm c} = 1$}{electron$\cdot$cm$^{-3}\cdot$s$^{-1}$}
{Charge deposition.}
\DbleEnr
{EDEPOS\_TOT\blank{2}}{$N_{\rm mix}$}{MeV$\cdot$cm$^{-3}\cdot$s$^{-1}$}
{Volume integrated energy deposition.}
\OptDbleEnr
{CDEPOS\_TOT\blank{2}}{$N_{\rm mix}$}{$I_{\rm c} = 1$}{electron$\cdot$cm$^{-3}\cdot$s$^{-1}$}
{Volume integrated charge deposition.}
\end{DescriptionEnregistrement}
\eject
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