Estoy intentando centrar el título de una figura de varias líneas, pero no he podido. Cuando intento separar líneas en el título con corchetes {}, funciona, excepto que las líneas del título están al revés. Adjunto un MWE a continuación.
Además, ¿cómo me aseguro de que, incluso si separo las líneas del título, aparezca en el TOC?
¡Gracias!
\documentclass[12pt, oneside]{article}
\usepackage{geometry}
\geometry{letterpaper}
\geometry{left=1.5in, right=1in, top=1in, bottom=1in}
\usepackage{amssymb}
\usepackage [english]{babel}
\usepackage [autostyle, english = american]{csquotes}
\MakeOuterQuote{"}
\usepackage{floatrow}
\usepackage{tabularx}
\newcolumntype{C}{>{\centering\arraybackslash}X}
\renewcommand\tabularxcolumn[1]{m{#1}}
\usepackage[title,titletoc,page,header]{appendix}
\renewcommand{\appendixpagename}{\centering Appendices}
\usepackage[nottoc]{tocbibind}
\usepackage{graphicx}
\graphicspath{ {Images/} }
\linespread{1.6}
\begin{document}
\listoffigures
\newpage
\indent X-ray generation is produced by inelastic collisions of the incident electrons with electrons in discrete orbitals of atoms in the sample. As excited electrons return to lower energy states, they yield x-rays that are of a fixed wavelength. These wavelengths are related to the difference in energy levels of electrons in different shells for a given element. This allows characteristic x-rays to be generated for each element in a material that is "excited" by the electron. One of the benefits of SEM analysis is that it is "non-destructive"; the x-rays generated by the electron interactions do not lead to volume loss of the sample, so it is possible to analyze materials repeatedly.
Figure 3 displays a typical SEM schematic.
\begin{figure}[ht] \centering
\includegraphics[scale=0.30]{SEMSchematic}
\caption{Typical SEM Schematic Displaying Electron Source, Focal Lenses, and}{Detectors}
\end{figure}
\end{document}
Respuesta1
Quizás esto es lo que quieres: ¿la última línea del título está centrada? Por otro lado, tenga en cuenta que, por lo general, cuando aumenta el espacio entre líneas, no desea aumentarlo para las notas al pie y los subtítulos. El paquete set space se encarga de estos detalles, así que me tomé la libertad de cargarlo y reemplazarlo \linespreadcon \setstretch.
\documentclass[12pt, oneside]{article}
\usepackage{geometry}
\geometry{letterpaper}
\geometry{left=1.5in, right=1in, top=1in, bottom=1in}
\usepackage{amssymb}
\usepackage [english]{babel}
\usepackage [autostyle, english = american]{csquotes}
\MakeOuterQuote{"}
\usepackage{floatrow}
\usepackage{tabularx}
\newcolumntype{C}{>{\centering\arraybackslash}X}
\renewcommand\tabularxcolumn[1]{m{#1}}
\usepackage[title,titletoc,page,header]{appendix}
\renewcommand{\appendixpagename}{\centering Appendices}
\usepackage[nottoc]{tocbibind}
\usepackage[demo]{graphicx}
\graphicspath{ {Images/} }
\usepackage{caption}
\captionsetup{justification=centerlast}
\usepackage{setspace}
%\linespread{1.6}
\setstretch{1.6}
\begin{document}
\listoffigures
\newpage
\indent X-ray generation is produced by inelastic collisions of the incident electrons with electrons in discrete orbitals of atoms in the sample. As excited electrons return to lower energy states, they yield x-rays that are of a fixed wavelength. These wavelengths are related to the difference in energy levels of electrons in different shells for a given element. This allows characteristic x-rays to be generated for each element in a material that is "excited" by the electron. One of the benefits of SEM analysis is that it is "non-destructive"; the x-rays generated by the electron interactions do not lead to volume loss of the sample, so it is possible to analyze materials repeatedly.
Figure 3 displays a typical SEM schematic.
\begin{figure}[ht] \centering
\includegraphics[scale=0.30]{SEMSchematic}
\caption{Typical SEM Schematic Displaying Electron Source, Focal Lenses, and Detectors}
\end{figure}
\end{document}
