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\end{subequations}</pre> | \end{subequations}</pre> | ||
{{multicol-break}} | {{multicol-break}} | ||
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\begin{gather} | \begin{gather} | ||
\mathbb{R}^n\xrightarrow[\mathbf{J}_g\atop m\times n]{g}\mathbb{R}^m\xrightarrow[\mathbf{J}_f\atop l\times m]{f}\mathbb{R}^l\\ | \mathbb{R}^n\xrightarrow[\mathbf{J}_g\atop m\times n]{g}\mathbb{R}^m\xrightarrow[\mathbf{J}_f\atop l\times m]{f}\mathbb{R}^l\\ | ||
\mathbb{R}^n\xrightarrow[\mathbf{J}_{f\circ g}\atop l\times n]{f\circ g}\mathbb{R}^l | \mathbb{R}^n\xrightarrow[\mathbf{J}_{f\circ g}\atop l\times n]{f\circ g}\mathbb{R}^l | ||
\end{gather} | \end{gather} | ||
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{{multicol-end}} | {{multicol-end}} | ||
Contents |
$\mathrm{\TeX}$ is one of the masterpieces of Don Knuth.
It is the uppercase version of $\tau\epsilon\chi$, a Greek word for Tech, which is how $\mathrm{\TeX}$ should be pronounced (!?).
At some point in the early 2000, I switched to $\mathrm{\LaTeX}$ for convenience, and almost exclusively use the latter now.
Splitting equations within an aligned set can be done as followed~[1]:
\begin{align} a &= \begin{aligned}[t] &b + c + d +\\ &c + e + f + g + h + i \end{aligned}\\ k &= \begin{aligned}[t] &l + m + n\\ &+ o + p + q \end{aligned} \end{align} |
\begin{align} a &= \begin{aligned}[t] &b + c + d +\\ &c + e + f + g + h + i \end{aligned}\\ k &= \begin{aligned}[t] &l + m + n\\ &+ o + p + q \end{aligned} \end{align} |
To align equations as if in a table (?!), one can use [2] This is to integrate $\int x\sin(k\pi x)dx$ by parts.
\begin{align} u&=x & v&=-\frac{1}{k\pi}\cos(k\pi x)\\ u'&=1 & v'&=\sin(k\pi x) \end{align} |
\begin{align} u&=x & v&=-\frac{1}{k\pi}\cos(k\pi x)\\ u'&=1 & v'&=\sin(k\pi x) \end{align} |
To gather equations,
\begin{subequations} \begin{gather} \mathbb{R}^n\xrightarrow[\mathbf{J}_g\atop m\times n]{g}\mathbb{R}^m\xrightarrow[\mathbf{J}_f\atop l\times m]{f}\mathbb{R}^l\\ \mathbb{R}^n\xrightarrow[\mathbf{J}_{f\circ g}\atop l\times n]{f\circ g}\mathbb{R}^l \end{gather} \end{subequations} |
\begin{gather} \mathbb{R}^n\xrightarrow[\mathbf{J}_g\atop m\times n]{g}\mathbb{R}^m\xrightarrow[\mathbf{J}_f\atop l\times m]{f}\mathbb{R}^l\\ \mathbb{R}^n\xrightarrow[\mathbf{J}_{f\circ g}\atop l\times n]{f\circ g}\mathbb{R}^l \end{gather} |
We try to write your name properly when we quote it. Here are the most common glyphs and the code needed to do so:
$?`$Does this work?
See Will Robertson preambles to use different fontsets.
Using the package
\usepackage[svgnames]{xcolor}
One can then use \textcolor{red}{this is red} or \color{red} to turn everything red (until next escape).
The predefined colors are:
black, blue, brown, cyan, darkgray, gray, green, lightgray, lime, magenta, olive, orange, pink, purple, red, teal, violet, white, yellow.
but some of them are horrible! like this horrible #00ff00 pure green (so-called lime) (what it calls lime is even less visible). The svgnames gives access to about 150 additional, and pretty, colors. Use capitals letters. Here are the most useful with a short name:
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And here are all of them.
Unicode can be supported (at least to some extent) with
\usepackage[mathletters]{ucs} \usepackage[utf8x]{inputenc}
It works at least for the Greek letters.
\addtolength{\itemsep}{-0.5\baselineskip}
\begin{enumerate}
\setcounter{enumi}{4}
\item fifth element
\end{enumerate}
\usepackage{enumitem}% http://ctan.org/pkg/enumitem
\begin{document}
\begin{enumerate}[label={[\arabic*]}]
\item First item
\item Second item
\item \ldots
\item Last item
\end{enumerate}
\end{document}
There is a $\mathrm{\LaTeX}$ package, footmisc, that is useful for manipulating footnote formatting.
%\footnotesep is the space between footnotes:
\setlength{\footnotesep}{-0.5\baselineskip}
%\footins is the space between the text body and the footnotes:
\setlength{\skip\footins}{1cm}
\makeatletter \renewcommand{\@makefnmark} %{\@textsuperscript{\textit{\tiny{\@thefnmark}}}} {[\@thefnmark]} \renewcommand\@makefntext[1]{% \parindent 1em \noindent [\@thefnmark]\enspace #1} \makeatother
(I left, commented, the original definition of the footnote).
\usepackage[a4paper, total={6in, 8in}]{geometry}
We use the siunitx package:
\usepackage{siunitx}
It'd take \SI{500}{\milli\second} to understand.
Please write \SI{10}{\micro\meter} and not 10$\mu\mathrm{m}$
There is also a SIUnits which is however deprecated [7]. Sometimes it comes in handy, for instance when you want to add non-numerical inputs (though siunitx should be able to allow that as well).
To write inverse unit, use \per:
shows the PL emission of a \SI{3}{\micro\meter} wire, where one can observe the splitting between the two first confined subbands, the polarization splitting, and the crossing of the X and Y (labelled TE and TM here) polarized lines around \SI{2.6}{\per\micro\meter}, whereas the value given by the formula above is \SI{2.1}{\per\micro\meter}.
The powers of ten can be counter-$\mathrm{\LaTeX}$-intuitive:
with a density of $\SI{e-3}{\per\square\micro\meter}$
If you do not use SI units, then omit the slash:
repetition rate of SI{3}{gb/s}
(that would be giga-bits per seconds).
It's useful to number profusely manuscripts of which you are discussing every line. Package lineno does that.
\usepackage{lineno} \linenumbers
It may have a hard time cohabiting with amsmath, however. It appears that if you include this monstrosity somewhere in your preamble, it'll perform well enough for line-dropping with your co-authors:
\newcommand*\patchAmsMathEnvironmentForLineno[1]{% \expandafter\let\csname old#1\expandafter\endcsname\csname #1\endcsname \expandafter\let\csname oldend#1\expandafter\endcsname\csname end#1\endcsname \renewenvironment{#1}% {\linenomath\csname old#1\endcsname}% {\csname oldend#1\endcsname\endlinenomath}}% \newcommand*\patchBothAmsMathEnvironmentsForLineno[1]{% \patchAmsMathEnvironmentForLineno{#1}% \patchAmsMathEnvironmentForLineno{#1*}}% \AtBeginDocument{% \patchBothAmsMathEnvironmentsForLineno{equation}% \patchBothAmsMathEnvironmentsForLineno{align}% \patchBothAmsMathEnvironmentsForLineno{flalign}% \patchBothAmsMathEnvironmentsForLineno{alignat}% \patchBothAmsMathEnvironmentsForLineno{gather}% \patchBothAmsMathEnvironmentsForLineno{multline}% }
Use texfot to get rid of the flood of output generated by compilation and retain only the warnings:
texfot pdflatex Microcavities.tex