X-Git-Url: https://hackdaworld.org/cgi-bin/gitweb.cgi?a=blobdiff_plain;f=nlsop%2Fnlsop_fb_bericht.tex;h=0f162ce89581c2dd178b78fa463008f0d6fbb397;hb=643ca262f74418c8522b0faa0b90bd0672b92335;hp=908951b53bf58148891134e955d8caf9fdc4011b;hpb=c072d634d6f694bed58d7c85977b6b1484dcedfd;p=lectures%2Flatex.git diff --git a/nlsop/nlsop_fb_bericht.tex b/nlsop/nlsop_fb_bericht.tex index 908951b..0f162ce 100644 --- a/nlsop/nlsop_fb_bericht.tex +++ b/nlsop/nlsop_fb_bericht.tex @@ -10,11 +10,11 @@ \usepackage{graphicx} \graphicspath{{./img/}} -\usepackage{graphs} +\usepackage{./graphs} \author{Frank Zirkelbach} -\title{Nanolamellare Selbstordnungsproze"se bei Kohlenstoffimplantation in Silizium} +\title{Nanolamellare Selbstordnungsprozesse bei Kohlenstoffimplantation in $(100)$-orientiertes Silizium bei Temperaturen kleiner $400$ Grad Celsius} \begin{document} \frontmatter @@ -35,12 +35,72 @@ foobar ... \section{Ablaufschema} \originalTeX -\begin{graph}(4,4) - \textnode{start}(2,4){nlsop start} - \textnode{rand1}(2,3){zufaellige wahl der Koordinaten: \newline $p(x)dx=dx$ \newline $p(y)dy=dy$ \newline $p(z)dz=(a_el*z+b_el)dz$} +\begin{figure}[thbp] +\begin{center} +\begin{graph}(8,30) + \graphnodecolour{1} + \textnode{start}(4,30){nlsop start} + \rectnode{rand1}[6,3](4,27.5) + \freetext(4,28.5){zufaellige Wahl der Koordinaten:} + \freetext(4,27.5){$p(x)dx=dx$} + \freetext(4,27){$p(y)dy=dy$} + \freetext(4,26.5){$p(z)dz=(a_{el}*z+b_{el})dz$} \diredge{start}{rand1} + \rectnode{p_ac_ca}[9,3](4,23.5) + \freetext(4,24.5){Berechnung der $p_{a \rightarrow c}$ bzw. $p_{c \rightarrow a}$:} + \freetext(4,23.5){$\displaystyle p_{c \rightarrow a}=\sum_{amorphe Nachbarn} \frac{a_{ap}}{\textrm{Abstand}^2} + b_{ap} + a_{cp}c_{\textrm{Kohlenstoff}}$} + \freetext(4,22.5){$\displaystyle p_{a \rightarrow c}=1-p_{c \rightarrow a}$} + \diredge{rand1}{p_ac_ca} + \textnode{ac}(4,21){Zelle $(x,y,z)$ amorph?} + \diredge{p_ac_ca}{ac} + \textnode{d_c}(2,19.5){Zufallszahl $< p_{a \rightarrow c}$ ?} + \textnode{d_a}(6,19.5){Zufallszahl $< p_{c \rightarrow a}$ ?} + \diredge{ac}{d_a} + \edgetext{ac}{d_a}{nein} + \diredge{ac}{d_c} + \edgetext{ac}{d_c}{ja} + \textnode{amount_c}(4,16.5){$\textrm{gesamter Kohlenstoff} < \textrm{steps} * c_{ratio}$ ?} + \diredge{d_c}{amount_c} + \diredge{d_a}{amount_c} + \textnode{make_c}(1,18){Zelle $(x,y,z) = \textrm{kristallin}$} + \textnode{make_a}(7,18){Zelle $(x,y,z) = \textrm{amorph}$} + \diredge{d_c}{make_c} + \edgetext{d_c}{make_c}{ja} + \diredge{d_a}{make_a} + \edgetext{d_a}{make_a}{ja} + \diredge{make_c}{amount_c} + \diredge{make_a}{amount_c} + \rectnode{rand2}[5,3](1.5,14) + \freetext(1.5,15){zufaellige Koordinaten:} + \freetext(1.5,14){$p(x)dx=dx$} + \freetext(1.5,13.5){$p(y)dy=dy$} + \freetext(1.5,13){$p(z)dz=(a_{cd}*z+b_{cd})dz$} + \diredge{amount_c}{rand2} + \freetext(3,16){ja} + \rectnode{inc_c}[5,1.5](1.5,11) + \freetext(1.5,11){Erhoehe $c_{Kohlenstoff}(x,y,z)$} + \freetext(1.5,10.5){Erhoehe gesamten Kohlenstoff} + \diredge{rand2}{inc_c} + \textnode{d_d}(5,9.5){Diffusion} + \diredge{inc_c}{d_d} + \diredge{amount_c}{d_d} + \edgetext{amount_c}{d_d}{nein} \end{graph} +\end{center} \germanTeX +\caption{ablaufschema} +\end{figure} + +\begin{figure}[thpb] +\begin{center} +\begin{graph}(8,30) + \graphnodecolour{1} + \textnode{start}(4,30){Diffusion} +\end{graph} +\end{center} +\germanTeX +\caption{ablaufschema 2} +\end{figure}