%% \CharacterTable %% {Upper-case \A\B\C\D\E\F\G\H\I\J\K\L\M\N\O\P\Q\R\S\T\U\V\W\X\Y\Z %% Lower-case \a\b\c\d\e\f\g\h\i\j\k\l\m\n\o\p\q\r\s\t\u\v\w\x\y\z %% Digits \0\1\2\3\4\5\6\7\8\9 %% Exclamation \! Double quote \" Hash (number) \# %% Dollar \$ Percent \% Ampersand \& %% Acute accent \' Left paren \( Right paren \) %% Asterisk \* Plus \+ Comma \, %% Minus \- Point \. Solidus \/ %% Colon \: Semicolon \; Less than \< %% Equals \= Greater than \> Question mark \? %% Commercial at \@ Left bracket \[ Backslash \\ %% Right bracket \] Circumflex \^ Underscore \_ %% Grave accent \` Left brace \{ Vertical bar \| %% Right brace \} Tilde \~} %% %\iffalse % % (c) Copyright 2015-2016 Pablo Garcia Risueno, Apostolos Syropoulos, % and Natalia Verges % This program can be redistributed and/or modified under the % terms of the LaTeX Project Public License Distributed from % http://www.latex-project.org/lppl.txt; either % version 1.3c of the License, or any later version. % % This work has the LPPL maintenance status `maintained'. % % Please report errors or suggestions for improvement to % % Apostolos Syropoulos (asyropoulos@yahoo.com) % %\fi % \CheckSum{344} % \iffalse This is a Metacomment % %\ProvidesFile{svrsymbols.sty} % % [2016/04/08 v2.0a Package `svrsymbols.sty'] % % \begin{macrocode} %<*driver> \documentclass{ltxdoc} \GetFileInfo{svrsymbols.drv} \usepackage{xltxtra} \usepackage{svrsymbols} \usepackage{fullpage} \usepackage{longtable} \begin{document} \setmainfont[Mapping=tex-text]{Universal Modern} \setmonofont{UM Typewriter} \setsansfont[Mapping=tex-text]{GFS Neohellenic} \DocInput{svrsymbols.dtx} \end{document} % % \end{macrocode} % \fi %\MakeShortVerb{\|} %\StopEventually{} %\title{The \textsf{svrsymbols} \LaTeX\ Package:\\New ideograms for Physics} %\author{Pablo Garc{\'\i}a Risue{\~n}o\\ Humboldt Universit\"at\\ zu Berlin, Germany\\ %\and Apostolos Syropoulos\\ Xanthi, Greece\\ \texttt{asyropoulos@yahoo.com} %\and Nat\`alia Verg\'es\\ Besal\'u (Girona), Spain} % \date{2016/04/08} %\maketitle % \begin{abstract} % The \textsf{svrsymbols} package is a \LaTeX\ interface to the \textsf{SVRsymbols} % font. The glyphs of this font are ideograms that have been designed for use in % Physics texts. Some symbols are standard and some are entirely new. %\end{abstract} % % \section{Introduction - Usage} % Ideograms are present in most communication codes that are in daily use. Examples of ideograms are the digits % 0,1,\ldots,9, mathematical symbols (like $+$, $-$, $\in$, $\sqrt{}$, etc.), emoticons, traffic signs or commercial logos. % In English there are sumbols that represent words (e.g., think of the symbols @, \$, and \&). In addition, % there are sumbols that are ubiquitous in certain languages (e.g., Chinese, Korean, and Japanese). Nowadays, % the current ``corpus'' of modern languages that are written with an alphabet (e.g., Spanish and Greek) include % certain ideograms and pictograms to enhance and simplify communication (e.g., think of smileys). % %\input svrsymbols.tex % % Physics employs the language of mathematics to express ideas and facts. Nevertheless, in Physics % certain letters and symbols have reserved meaning. The \textsf{SVRsymbols} font contain some new ideograms % for use in Physics. The symbols have been designed so to be intuitive, easy to identify and to remember. % The package \textsf{svrsymbols} currently has no options and provides an interface to the font. In % particular, it defines commands that work only in math mode and provide access to the various glyphs of % the \textsf{SVRsymbols} font. These commands as well as the symbols each command corresponds to are shown % in Table~\ref{tbl1}. In addition there are three more commands that can be used get size-variants of the % $\assumption$ symbol: % \begin{displaymath} % \bigassumption\rightarrow\mbox{\texttt{\char`\\bigassumption}},\; % \biggassumption\rightarrow\mbox{\texttt{\char`\\biggassumption}},\; % \Bigassumption\rightarrow\mbox{\texttt{\char`\\Bigassumption}}. % \end{displaymath} % \section{The Source code} % The first part of the code is the identification part. % \begin{macrocode} %<*svrsymbols> \NeedsTeXFormat{LaTeX2e} \ProvidesPackage{svrsymbols} [2016/04/08 v.2.0a, New Symbols for Physics.] % \end{macrocode} % The commands that follow define commands according to the NFSS necessary to access the font that contains % the various glyphs. First we define a new font family and then the various variants. Since there are no % variants, the commands use the ``default'' font. % \begin{macrocode} \DeclareFontFamily{OML}{svr}{} \DeclareFontShape{OML}{svr}{m}{it}{ <-> SVRsymbols }{} \DeclareFontShape{OML}{svr}{b}{it}{ <-> SVRsymbols }{} \DeclareFontShape{OML}{svr}{m}{sl}{<->ssub * svr/m/it}{} \DeclareFontShape{OML}{svr}{bx}{it}{<->ssub * svr/b/it}{} \DeclareFontShape{OML}{svr}{b}{sl}{<->ssub * svr/b/it}{} \DeclareFontShape{OML}{svr}{bx}{sl}{<->ssub * svr/b/sl}{} \DeclareSymbolFont{svrsymbols}{OML}{svr}{m}{it} \SetSymbolFont{svrsymbols}{bold}{OML}{svr}{b}{it} % \end{macrocode} % The commands that follow are the glyph access commands. Let us stress again that these commands can % be used only in math mode. % \begin{macrocode} \DeclareMathSymbol{\method}{\mathord}{svrsymbols}{`A} \DeclareMathSymbol{\orbit}{\mathord}{svrsymbols}{`B} \DeclareMathSymbol{\atom}{\mathord}{svrsymbols}{`C} \DeclareMathSymbol{\antiproton}{\mathord}{svrsymbols}{`D} \DeclareMathSymbol{\antiquark}{\mathord}{svrsymbols}{`E} \DeclareMathSymbol{\antiquarkb}{\mathord}{svrsymbols}{`F} \DeclareMathSymbol{\antiquarkc}{\mathord}{svrsymbols}{`G} \DeclareMathSymbol{\antiquarkd}{\mathord}{svrsymbols}{`H} \DeclareMathSymbol{\antiquarks}{\mathord}{svrsymbols}{`I} \DeclareMathSymbol{\antiquarkt}{\mathord}{svrsymbols}{`J} \DeclareMathSymbol{\antiquarku}{\mathord}{svrsymbols}{`K} \DeclareMathSymbol{\varphoton}{\mathord}{svrsymbols}{`L} \DeclareMathSymbol{\antineutrino}{\mathord}{svrsymbols}{`M} \DeclareMathSymbol{\neutrino}{\mathord}{svrsymbols}{`N} \DeclareMathSymbol{\quark}{\mathord}{svrsymbols}{`O} \DeclareMathSymbol{\quarkb}{\mathord}{svrsymbols}{`P} \DeclareMathSymbol{\quarkc}{\mathord}{svrsymbols}{`Q} \DeclareMathSymbol{\quarkd}{\mathord}{svrsymbols}{`R} \DeclareMathSymbol{\quarks}{\mathord}{svrsymbols}{`S} \DeclareMathSymbol{\quarkt}{\mathord}{svrsymbols}{`T} \DeclareMathSymbol{\quarku}{\mathord}{svrsymbols}{`U} \DeclareMathSymbol{\dipole}{\mathord}{svrsymbols}{`V} \DeclareMathSymbol{\spindown}{\mathord}{svrsymbols}{`Z} \DeclareMathSymbol{\electron}{\mathord}{svrsymbols}{`a} \DeclareMathSymbol{\svrphoton}{\mathord}{svrsymbols}{`b} \DeclareMathSymbol{\fermiDistrib}{\mathord}{svrsymbols}{`c} \DeclareMathSymbol{\proton}{\mathord}{svrsymbols}{`d} \DeclareMathSymbol{\nucleus}{\mathord}{svrsymbols}{`e} \DeclareMathSymbol{\ion}{\mathord}{svrsymbols}{`f} \DeclareMathSymbol{\neutron}{\mathord}{svrsymbols}{`g} \DeclareMathSymbol{\hole}{\mathord}{svrsymbols}{`h} \DeclareMathSymbol{\exciton}{\mathord}{svrsymbols}{`i} \DeclareMathSymbol{\phonon}{\mathord}{svrsymbols}{`j} \DeclareMathSymbol{\polaron}{\mathord}{svrsymbols}{`k} \DeclareMathSymbol{\reference}{\mathord}{svrsymbols}{`l} \DeclareMathSymbol{\positron}{\mathord}{svrsymbols}{`m} \DeclareMathSymbol{\antiproton}{\mathord}{svrsymbols}{`n} \DeclareMathSymbol{\spinup}{\mathord}{svrsymbols}{`o} \DeclareMathSymbol{\plasmon}{\mathord}{svrsymbols}{`p} \DeclareMathSymbol{\errorsym}{\mathord}{svrsymbols}{`q} \DeclareMathSymbol{\water}{\mathord}{svrsymbols}{`r} \DeclareMathSymbol{\graphene}{\mathord}{svrsymbols}{`s} \DeclareMathSymbol{\solid}{\mathord}{svrsymbols}{`t} \DeclareMathSymbol{\assumption}{\mathord}{svrsymbols}{`u} \DeclareMathSymbol{\bigassumption}{\mathord}{svrsymbols}{"C8} \DeclareMathSymbol{\biggassumption}{\mathord}{svrsymbols}{"C9} \DeclareMathSymbol{\Bigassumption}{\mathord}{svrsymbols}{"CA} \DeclareMathSymbol{\experimentalsym}{\mathord}{svrsymbols}{`v} \DeclareMathSymbol{\antimuon}{\mathord}{svrsymbols}{`w} \DeclareMathSymbol{\muon}{\mathord}{svrsymbols}{`x} \DeclareMathSymbol{\antineutron}{\mathord}{svrsymbols}{`y} \DeclareMathSymbol{\surface}{\mathord}{svrsymbols}{`z} \DeclareMathSymbol{\fermion}{\mathord}{svrsymbols}{"A1} \DeclareMathSymbol{\externalsym}{\mathord}{svrsymbols}{"A2} \DeclareMathSymbol{\internalsym}{\mathord}{svrsymbols}{"A3} \DeclareMathSymbol{\maxwellDistrib}{\mathord}{svrsymbols}{"A4} \DeclareMathSymbol{\resistivity}{\mathord}{svrsymbols}{"A5} \DeclareMathSymbol{\boseDistrib}{\mathord}{svrsymbols}{"A6} \DeclareMathSymbol{\boson}{\mathord}{svrsymbols}{"A7} \DeclareMathSymbol{\spin}{\mathord}{svrsymbols}{"C0} \DeclareMathSymbol{\polariton}{\mathord}{svrsymbols}{"C1} \DeclareMathSymbol{\conductivity}{\mathord}{svrsymbols}{"C2} \DeclareMathSymbol{\bond}{\mathord}{svrsymbols}{"C3} \DeclareMathSymbol{\covbond}{\mathord}{svrsymbols}{"C4} \DeclareMathSymbol{\doublecovbond}{\mathord}{svrsymbols}{"C5} \DeclareMathSymbol{\triplecovbond}{\mathord}{svrsymbols}{"C6} \DeclareMathSymbol{\metalbond}{\mathord}{svrsymbols}{"C7} \DeclareMathSymbol{\hbond}{\mathord}{svrsymbols}{"CB} \DeclareMathSymbol{\svrexample}{\mathord}{svrsymbols}{"CC} \DeclareMathSymbol{\magnon}{\mathord}{svrsymbols}{"CD} \DeclareMathSymbol{\ionicbond}{\mathord}{svrsymbols}{"CE} \DeclareMathSymbol{\tachyon}{\mathord}{svrsymbols}{"CF} \DeclareMathSymbol{\adsorbent}{\mathord}{svrsymbols}{"D0} \DeclareMathSymbol{\adsorbate}{\mathord}{svrsymbols}{"D1} \DeclareMathSymbol{\anyon}{\mathord}{svrsymbols}{"D2} \DeclareMathSymbol{\interaction}{\mathord}{svrsymbols}{"D3} \DeclareMathSymbol{\quadrupole}{\mathord}{svrsymbols}{"D4} \DeclareMathSymbol{\protein}{\mathord}{svrsymbols}{"D5} \DeclareMathSymbol{\tauleptonplus}{\mathord}{svrsymbols}{"D6} \DeclareMathSymbol{\tauleptonminus}{\mathord}{svrsymbols}{"D7} \DeclareMathSymbol{\Bmesonplus}{\mathord}{svrsymbols}{"D9} \DeclareMathSymbol{\Bmesonminus}{\mathord}{svrsymbols}{"DA} \DeclareMathSymbol{\Bmesonnull}{\mathord}{svrsymbols}{"DB} \DeclareMathSymbol{\Dmesonplus}{\mathord}{svrsymbols}{"DC} \DeclareMathSymbol{\Dmesonminus}{\mathord}{svrsymbols}{"DD} \DeclareMathSymbol{\Dmesonnull}{\mathord}{svrsymbols}{"DE} \DeclareMathSymbol{\Tmesonplus}{\mathord}{svrsymbols}{"DF} \DeclareMathSymbol{\Tmesonminus}{\mathord}{svrsymbols}{"E0} \DeclareMathSymbol{\Tmesonnull}{\mathord}{svrsymbols}{"E1} \DeclareMathSymbol{\Upsilonmeson}{\mathord}{svrsymbols}{"E2} \DeclareMathSymbol{\phimeson}{\mathord}{svrsymbols}{"E3} \DeclareMathSymbol{\phimesonnull}{\mathord}{svrsymbols}{"E4} \DeclareMathSymbol{\rhomesonplus}{\mathord}{svrsymbols}{"E5} \DeclareMathSymbol{\rhomesonminus}{\mathord}{svrsymbols}{"E6} \DeclareMathSymbol{\rhomesonnull}{\mathord}{svrsymbols}{"E7} \DeclareMathSymbol{\etameson}{\mathord}{svrsymbols}{"E8} \DeclareMathSymbol{\etamesonprime}{\mathord}{svrsymbols}{"E9} \DeclareMathSymbol{\pionplus}{\mathord}{svrsymbols}{"EA} \DeclareMathSymbol{\pionminus}{\mathord}{svrsymbols}{"EB} \DeclareMathSymbol{\pionnull}{\mathord}{svrsymbols}{"EC} \DeclareMathSymbol{\Kaonplus}{\mathord}{svrsymbols}{"ED} \DeclareMathSymbol{\Kaonminus}{\mathord}{svrsymbols}{"EE} \DeclareMathSymbol{\Kaonnull}{\mathord}{svrsymbols}{"EF} \DeclareMathSymbol{\Gluon}{\mathord}{svrsymbols}{"F0} \DeclareMathSymbol{\Higgsboson}{\mathord}{svrsymbols}{"F1} \DeclareMathSymbol{\Wbosonplus}{\mathord}{svrsymbols}{"F2} \DeclareMathSymbol{\Wbosonminus}{\mathord}{svrsymbols}{"F3} \DeclareMathSymbol{\Wboson}{\mathord}{svrsymbols}{"F4} \DeclareMathSymbol{\Zboson}{\mathord}{svrsymbols}{"F5} \DeclareMathSymbol{\Jpsimeson}{\mathord}{svrsymbols}{"F6} \DeclareMathSymbol{\graviton}{\mathord}{svrsymbols}{"F7} % % \end{macrocode} % \Finale