From 7c946d5d3acd0477629e57837e225aa7fc3c99e9 Mon Sep 17 00:00:00 2001 From: hackbard Date: Wed, 16 Aug 2006 11:05:55 +0000 Subject: [PATCH] some fixes --- nlsop/poster/nlsop_ibmm2006_ver2.tex | 23 ++++++++++++++++------- 1 file changed, 16 insertions(+), 7 deletions(-) diff --git a/nlsop/poster/nlsop_ibmm2006_ver2.tex b/nlsop/poster/nlsop_ibmm2006_ver2.tex index e1ed083..d03cc6a 100644 --- a/nlsop/poster/nlsop_ibmm2006_ver2.tex +++ b/nlsop/poster/nlsop_ibmm2006_ver2.tex @@ -120,7 +120,7 @@ \end{itemize} \end{minipage} \begin{minipage}[t]{0.5\textwidth} - {\bf TRIM collsion statstics} + {\bf TRIM collision statstics} \begin{center} \includegraphics[width=12cm]{trim_coll_e.eps} \end{center} @@ -258,20 +258,25 @@ p_{a \rightarrow c}(\vec r) = (1 - p_{c \rightarrow a}(\vec r)) \Big(1 - \frac{\ \begin{pbox} \section*{Recipe:\\ Thick films of ordered lamellar structure} - {\bf Prerequisites:}\\ + \begin{minipage}{0.33\textwidth} + {\bf Prerequisites:}\\ Crystalline silicon target with a nearly constant carbon concentration at $10 \, at. \%$ in a $500 \, nm$ thick surface layer - \begin{center} - \includegraphics[width=18cm]{multiple_impl_cp_e.eps} - \end{center} + \end{minipage} + \begin{minipage}{0.65\textwidth} + \begin{center} + \includegraphics[width=15cm]{multiple_impl_cp_e.eps} + \end{center} + \end{minipage} {\bf Creation:} \begin{itemize} \item multiple energy ($180$-$10 \, keV$) $C^+$ $\rightarrow$ $Si$ implantation \item $T=500 \, ^{\circ} \mathrm{C}$, to prevent amorphisation \end{itemize} - {\bf Stiring up:}\\ + \vspace{1cm} + {\bf Stiring up:}\\[0.5cm] 2nd $2 \, MeV$ $C^+$ $\rightarrow$ $Si$ implantation step at $150 \, ^{\circ} \mathrm{C}$ \begin{itemize} @@ -279,7 +284,9 @@ p_{a \rightarrow c}(\vec r) = (1 - p_{c \rightarrow a}(\vec r)) \Big(1 - \frac{\ concentration in the top $500 \, nm$ \item Nearly constant energy loss in the affected depth region \end{itemize} + \vspace{1cm} {\bf Result:} + \vspace{0.7cm} \begin{center} \includegraphics[width=25cm]{multiple_impl_e.eps} \end{center} @@ -301,8 +308,10 @@ p_{a \rightarrow c}(\vec r) = (1 - p_{c \rightarrow a}(\vec r)) \Big(1 - \frac{\ \item Model proposed describing the seoforganisation process \item Model implemented to a Monte Carlo simulation code - \item Simulation is able to reproduce experimenal + \item Simulation is able to reproduce experimental observations + \item Modelling of the complete depth region affected + by the irradiation process \item Precipitation process gets traceable by simulation \item Detailed structural/compositional information available by simulation -- 2.20.1