diff --git a/workshops/latex/beamer/beamer.tex b/workshops/latex/beamer/beamer.tex
index f3f30f0a7ab07f2a37a06c53cf2ea250bb1ee099..e935743251bd70690107290097b1981599cb3f55 100644
--- a/workshops/latex/beamer/beamer.tex
+++ b/workshops/latex/beamer/beamer.tex
@@ -88,7 +88,7 @@
texcsstyle=*\color{Mahogany}\bfseries,
commentstyle=\itshape\color{RoyalBlue},
keywordstyle=\color{RoyalBlue}\bfseries,
- moretexcs={lstset,subsubsection,paragraph,subsection,color,sl,textcolor,lstinputlisting,newfontfamily,fontsize,section,documentclass,begin,includegraphics,hello,bye,setmainlanguage,setlength,institute,subtitle,alert,only,onslide,titlepage,usetheme,usecolortheme},
+ moretexcs={lstset,subsubsection,paragraph,subsection,color,sl,textcolor,lstinputlisting,newfontfamily,fontsize,section,documentclass,begin,includegraphics,hello,bye,setmainlanguage,setlength,institute,subtitle,alert,only,onslide,titlepage,usetheme,usecolortheme,movie},
morekeywords={center,document,flushleft,flushright,itemize,enumerate,tabular,article,polyglossia,geometry,amsmath,graphicx,xcolor,hyperref,frame,example,definition,theorem,proof,block,column,columns,exampleblock,alertblock},
moredelim=**[is][\smash]{@}{@}
}
@@ -342,25 +342,45 @@
\section{Was beamer noch kann}
\begin{frame}{Was \LaTeX-beamer noch kann}
- \begin{itemize}
- \item Videos- und Audiodateien einbinden
- \item Text, Formeln usw. {\only<2>{\color{red}}teilweise
- \only<2>{\color{green}}farblich} hervorheben
- \item Schöne Fußnoten\footnote{%
- z.\,B. zum Zitieren von \fullcite{beameruserguide}}
- \item Einfaches Erstellen eigener Themen
- \item Primitive Animationen
- \item Notizen für den Vortragenden
- \end{itemize}
+ \begin{columns}
+ \begin{column}{.6\textwidth}
+ \begin{itemize}
+ \item Videos- und Audiodateien einbinden
+ \item Text, Formeln usw. {\only<2>{\color{red}}teilweise
+ \only<2>{\color{green}}farblich} hervorheben
+ \item Schöne Fußnoten\footnotemark
+ \item Einfaches Erstellen eigener Themen
+ \item Primitive Animationen
+ \item Notizen für den Vortragenden
+ \end{itemize}
+ \vspace{6mm}
+ \end{column}
+ \begin{column}{.4\textwidth}
+ \includegraphics[
+ width=\textwidth,
+ page=1,
+ trim={16mm 40mm 16mm 20mm},
+ clip
+ ]{beameruserguide.pdf}
+ \end{column}
+ \end{columns}
+ \footnotetext{z.\,B. zum Zitieren von \fullcite{beameruserguide}}%
\end{frame}
\begin{frame}{Videos}
- \vspace*{-6mm}%
- \begin{center}
- \movie[width=.5\textwidth, height=.3125\textwidth,
- loop]{\includegraphics[width=.5\textwidth]{image.jpg}}{movie.mp4}\\
- Wellenfuntion im eindimensionalen Kastenpotential
- \end{center}
+ \begin{columns}
+ \begin{column}{.5\textwidth}
+ \movie[
+ width=\textwidth, height=.625\textwidth, loop
+ ]{\includegraphics[width=\textwidth]{image.jpg}}{movie.mp4}\\
+ Wellenfuntion im Kastenpotential
+ \end{column}
+ \begin{column}{.5\textwidth}
+ Videos einbetten ist einfach,\\
+ \alert{aber oft nicht sinnvoll}:
+ \lstinputlisting{examples/movie.tex}
+ \end{column}
+ \end{columns}
\end{frame}
\newcount\timecounter
@@ -382,72 +402,79 @@
\end{frame}
\begin{frame}{TikZ Beispiel: Graphen in Tight Binding}
- \begin{overprint}
- Näherung der Bandstruktur von Graphen
- \vspace*{-1mm}
- \begin{columns}[T]
- \begin{column}[T]{0.5\textwidth}
- \begin{block}{Tight Binding Model}
- \vspace*{-1mm}
- \begin{itemize}
- \item Honigwabengitter
- \item Nur \red{Hüpfen} zu \green{nächsten Nachbarn}
- \end{itemize}
- \vspace*{-2mm}
- \begin{align*}
- \mathcal{H}
- &=-\red{t} \sum_{\green{\left<i,j\right>}}a_\green{i}^\dagger a_\green{j} \\
- &=-\sum_{\mathbf{m}, \mathbf{n}, \alpha, \beta}
- \red{t}\green{_{\alpha\beta}(\mathbf{m})} a_{\alpha\,(n+m)}^\dagger a_{\beta\,n}
- \end{align*}
- \vspace*{-1mm}
- \end{block}
- \end{column}
- \begin{column}[T]{0.5\textwidth}
- \vspace*{-4.5mm}
- \tikzsetnextfilename{graphene3d}
- \hspace*{3mm}%
- \begin{tikzpicture}[scale=1]
- \begin{axis}[
- view/h=33,
- axis lines=none,
- width=8.3cm,
- height=8.5cm,
- xmin=-4.4, xmax=4.4,
- ymin=-4.4, ymax=4.4,
- zmin=-3.1, zmax=3.1,
- ]
- \addplot3[
- mesh,
- %surf,
- %shader=interp,
- samples=50,
- domain=-4.3:4.3,
- y domain=-4.3:4.3,
- ] { -sqrt(1+4*cos(\y/2 r)^2+4*cos(\y/2 r)*cos(sqrt(3)*\x/2 r)) };
- \addplot3[
- mesh,
- %surf,
- %shader=interp,
- samples=50,
- domain=-4.3:4.3,
- y domain=-4.3:4.3,
- ] { sqrt(1+4*cos(\y/2 r)^2+4*cos(\y/2 r)*cos(sqrt(3)*\x/2 r)) };
- \end{axis}
- \end{tikzpicture}
- \vspace*{-12mm}
- \end{column}
- \end{columns}
- \vspace*{1.5mm}
- $\implies$ Energieeigenzustände:
- $\quad\displaystyle
- E(\mathbf{k})
- = \pm \red{t}%
- \Underbrace{%
- \sqrt{1+4\cos^2\Big( \frac a2 k_y \Big)+4\cos\Big( \frac a2 k_y \Big)\cos\Big( \sqrt3 \frac a2 k_x \Big)}%
- }{\left|1+e^{-i\mathbf{k}\cdot\mathbf{a_2}}+e^{-i\mathbf{k}\cdot(\mathbf{a_1}+\mathbf{a_2})}\right|}%
- $
- \end{overprint}
+ Näherung der Bandstruktur von Graphen
+ \vspace*{-2mm}
+ \begin{columns}[T]
+ \begin{column}{.5\textwidth}
+ \begin{block}{Tight Binding Model}
+ \vspace*{-1mm}
+ \begin{itemize}
+ \item Honigwabengitter
+ \item Nur \red{Hüpfen} zu \green{nächsten Nachbarn}
+ \end{itemize}
+ \vspace*{-2mm}
+ \begin{align*}
+ \mathcal{H}
+ &=-\red{t} \sum_{\green{\left<i,j\right>}}a_\green{i}^\dagger a_\green{j} \\
+ &=-\sum_{\mathbf{m}, \mathbf{n}, \alpha, \beta}
+ \red{t}\green{_{\alpha\beta}(\mathbf{m})} a_{\alpha\,(n+m)}^\dagger a_{\beta\,n}
+ \end{align*}
+ \vspace*{-1mm}
+ \end{block}
+ \end{column}
+ \begin{column}{.5\textwidth}
+ \vspace*{-4.5mm}
+ \tikzsetnextfilename{graphene3d}
+ \hspace*{3mm}%
+ \begin{tikzpicture}[scale=1]
+ \begin{axis}[
+ view/h=33,
+ axis lines=none,
+ width=8.3cm,
+ height=8.5cm,
+ xmin=-4.4, xmax=4.4,
+ ymin=-4.4, ymax=4.4,
+ zmin=-3.1, zmax=3.1,
+ ]
+ \addplot3[
+ mesh,
+ %surf,
+ %shader=interp,
+ samples=50,
+ domain=-4.3:4.3,
+ y domain=-4.3:4.3,
+ ] { -sqrt(1+4*cos(\y/2 r)^2+4*cos(\y/2 r)*cos(sqrt(3)*\x/2 r)) };
+ \addplot3[
+ mesh,
+ %surf,
+ %shader=interp,
+ samples=50,
+ domain=-4.3:4.3,
+ y domain=-4.3:4.3,
+ ] { sqrt(1+4*cos(\y/2 r)^2+4*cos(\y/2 r)*cos(sqrt(3)*\x/2 r)) };
+ \end{axis}
+ \end{tikzpicture}
+ \vspace*{-12mm}
+ \end{column}
+ \end{columns}
+ \vspace*{1.5mm}
+ $\implies$ Energieeigenzustände:
+ $\quad\displaystyle
+ E(\mathbf{k})
+ = \pm \red{t}%
+ \Underbrace{%
+ \sqrt{1+4\cos^2\Big( \frac a2 k_y \Big)+4\cos\Big( \frac a2 k_y \Big)\cos\Big( \sqrt3 \frac a2 k_x \Big)}%
+ }{\left|1+e^{-i\mathbf{k}\cdot\mathbf{a_2}}+e^{-i\mathbf{k}\cdot(\mathbf{a_1}+\mathbf{a_2})}\right|}%
+ $
+\end{frame}
+
+\begin{frame}
+ \null\hfill%
+ \begin{beamercolorbox}[sep=8pt,wd=.6\paperwidth,rounded=true,shadow=true,center]{title}
+ \usebeamerfont{title}\LARGE\slshape
+ Noch Fragen?
+ \end{beamercolorbox}%
+ \hfill\null%
\end{frame}
\end{document}
diff --git a/workshops/latex/beamer/beameruserguide.pdf b/workshops/latex/beamer/beameruserguide.pdf
new file mode 100644
index 0000000000000000000000000000000000000000..942b0b9e93331e5ab889064a0fcfbe829bcd0a54
Binary files /dev/null and b/workshops/latex/beamer/beameruserguide.pdf differ
diff --git a/workshops/latex/beamer/examples/movie.tex b/workshops/latex/beamer/examples/movie.tex
new file mode 100644
index 0000000000000000000000000000000000000000..ae0ee01c075bd56fea5fade1be17ae60e902ac8f
--- /dev/null
+++ b/workshops/latex/beamer/examples/movie.tex
@@ -0,0 +1,3 @@
+\movie[width=8cm, height=6cm, loop]{
+ \includegraphics[width=8cm]{image.jpg}
+}{movie.mp4}
diff --git a/workshops/latex/handout.tex b/workshops/latex/handout.tex
index 182a1adea8a56f22120604e2dbc39f982e8a6823..f8824c3346f3c7d45f2844a56aea200aae6ef3bb 100644
--- a/workshops/latex/handout.tex
+++ b/workshops/latex/handout.tex
@@ -498,7 +498,7 @@ Titelfolie: \verb|\begin{frame} \titlepage \end{frame}|
%
\subsection{Strukturierung}
\begin{minipage}[t]{.65\linewidth}
- \verb|\begin{columns}[|\emph{Position:} t/b/c\texttt{]}\\
+ \verb|\begin{columns}[|\emph{Position:} t/b/c/T\texttt{]}\\
\verb| %| \emph{Position:} \textbf{t}op, \textbf{c}enter, \textbf{b}ottom\\
\verb| \begin{column}{0.5\textwidth}|\\
\verb| Spalten bringen Struktur!|\\