Minipage - 两列之间的空间和对齐

Question

minipage正如 JLDiaz 所提到的，您可以使用可选参数控制 s 的垂直对齐方式。另一种方法是使用beamer columns。下面演示了这两种方法。请注意[t]环境的columns，它将列顶部对齐。

\documentclass{beamer}
\usetheme{Berlin}
\usecolortheme{beaver}
\usepackage[utf8]{inputenc}
\usepackage[T1]{fontenc}  


\setbeamercovered{transparent}

\title{3D-Lithography}

\begin{document}


\begin{frame}
\frametitle{Advantages of 2-PP to 1-PP}
\setbeamercovered{transparent}
 \noindent\begin{minipage}[t]{.45\textwidth}
  Basic Problems of Single-Photon Polymerization:
  \begin{itemize}
  \item layer-by-layer type of manufacturing (limits possible geometries)
  \item suppression through undesired quenching of radicals
  \item diffraction limits
  \end{itemize}
 \end{minipage}\hspace{.5cm}  % <--- space
\pause
 \begin{minipage}[t]{.45\textwidth}
   Optimization by Two-Photon Polymerization:
   \begin{itemize}
   \item true 3D-Process (random geometries) 
   \item radical quenching avoided
   \item small excited spots\\
  $\Longrightarrow$ smaller structures possible
 \end{itemize}
 \end{minipage}
\end{frame}


\begin{frame}
\frametitle{Advantages of 2-PP to 1-PP}
\setbeamercovered{transparent}
 \begin{columns}[t]
 \begin{column}{.45\textwidth}
  Basic Problems of Single-Photon Polymerization:
  \begin{itemize}
  \item layer-by-layer type of manufacturing (limits possible geometries)
  \item suppression through undesired quenching of radicals
  \item diffraction limits
  \end{itemize}
 \end{column}
\pause
 \begin{column}{.45\textwidth}
   Optimization by Two-Photon Polymerization:
   \begin{itemize}
   \item true 3D-Process (random geometries) 
   \item radical quenching avoided
   \item small excited spots\\
  $\Longrightarrow$ smaller structures possible
 \end{itemize}
 \end{column}
 \end{columns}
\end{frame}
\end{document}

Answer 1

minipage正如 JLDiaz 所提到的，您可以使用可选参数控制 s 的垂直对齐方式。另一种方法是使用beamer columns。下面演示了这两种方法。请注意[t]环境的columns，它将列顶部对齐。

\documentclass{beamer}
\usetheme{Berlin}
\usecolortheme{beaver}
\usepackage[utf8]{inputenc}
\usepackage[T1]{fontenc}  


\setbeamercovered{transparent}

\title{3D-Lithography}

\begin{document}


\begin{frame}
\frametitle{Advantages of 2-PP to 1-PP}
\setbeamercovered{transparent}
 \noindent\begin{minipage}[t]{.45\textwidth}
  Basic Problems of Single-Photon Polymerization:
  \begin{itemize}
  \item layer-by-layer type of manufacturing (limits possible geometries)
  \item suppression through undesired quenching of radicals
  \item diffraction limits
  \end{itemize}
 \end{minipage}\hspace{.5cm}  % <--- space
\pause
 \begin{minipage}[t]{.45\textwidth}
   Optimization by Two-Photon Polymerization:
   \begin{itemize}
   \item true 3D-Process (random geometries) 
   \item radical quenching avoided
   \item small excited spots\\
  $\Longrightarrow$ smaller structures possible
 \end{itemize}
 \end{minipage}
\end{frame}


\begin{frame}
\frametitle{Advantages of 2-PP to 1-PP}
\setbeamercovered{transparent}
 \begin{columns}[t]
 \begin{column}{.45\textwidth}
  Basic Problems of Single-Photon Polymerization:
  \begin{itemize}
  \item layer-by-layer type of manufacturing (limits possible geometries)
  \item suppression through undesired quenching of radicals
  \item diffraction limits
  \end{itemize}
 \end{column}
\pause
 \begin{column}{.45\textwidth}
   Optimization by Two-Photon Polymerization:
   \begin{itemize}
   \item true 3D-Process (random geometries) 
   \item radical quenching avoided
   \item small excited spots\\
  $\Longrightarrow$ smaller structures possible
 \end{itemize}
 \end{column}
 \end{columns}
\end{frame}
\end{document}

Minipage - 两列之间的空间和对齐

答案1

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