%% %% This is file `lwarp-physics.sty', %% generated with the docstrip utility. %% %% The original source files were: %% %% lwarp.dtx (with options: `physics') %% This is a generated file. %% Copyright 2016-2020 Brian Dunn %% %% This work may be distributed and/or modified under the %% conditions of the LaTeX Project Public License, either version 1.3 %% of this license or (at your option) any later version. %% The latest version of this license is in %% http://www.latex-project.org/lppl.txt %% and version 1.3 or later is part of all distributions of LaTeX %% version 2005/12/01 or later. \LWR@ProvidesPackagePass{physics}% No date is provided by the package. \begin{warpMathJax} \LWR@infoprocessingmathjax{physics} \CustomizeMathJax{\newcommand{\quantity}{}} \CustomizeMathJax{\let\qty\quantity} \CustomizeMathJax{\newcommand{\pqty}[1]{\left(#1\right)}} \CustomizeMathJax{\newcommand{\bqty}[1]{\left\lbrack#1\right\rbrack}} \CustomizeMathJax{\newcommand{\vqty}[1]{\left\vert#1\right\rvert}} \CustomizeMathJax{\newcommand{\Bqty}[1]{\left\lbrace#1\right\rbrace}} \CustomizeMathJax{\newcommand{\absolutevalue}[1]{\left\lvert#1\right\rvert}} \CustomizeMathJax{\let\abs\absolutevalue} \CustomizeMathJax{\newcommand{\norm}[1]{% \left\lvert\left\lvert#1\right\rvert\right\rvert}% } \CustomizeMathJax{\newcommand{\evaluated}[1]{#1\vert}} \CustomizeMathJax{\let\eval\evaluated} \CustomizeMathJax{\newcommand{\order}[1]{\mathcal{O}\left(#1\right)}} \CustomizeMathJax{\newcommand{\commutator}[2]{\left\lbrack#1,#2\right\rbrack}} \CustomizeMathJax{\let\comm\commutator} \CustomizeMathJax{\newcommand{\anticommutator}[2]{% \left\lbrace#1,#2\right\rbrace}% } \CustomizeMathJax{\let\acomm\anticommutator} \CustomizeMathJax{\let\poissonbracket\anticommutator} \CustomizeMathJax{\let\pb\anticommutator} \CustomizeMathJax{\newcommand{\vectorbold}[1]{\mathbf{#1}}} \CustomizeMathJax{\let\vb\vectorbold} \CustomizeMathJax{\newcommand{\vectorarrow}[1]{\vec{\mathbf{#1}}}} \CustomizeMathJax{\let\va\vectorarrow} \CustomizeMathJax{\newcommand{\vectorunit}[1]{\mathbf{\hat{#1}}}} \CustomizeMathJax{\let\va\vectorunit} \CustomizeMathJax{\newcommand{\dotproduct}{\boldsymbol\cdot}} \CustomizeMathJax{\let\vdot\dotproduct} \CustomizeMathJax{\newcommand{\crossproduct}{\boldsymbol\times}} \CustomizeMathJax{\let\cross\crossproduct} \CustomizeMathJax{\let\cp\crossproduct} \CustomizeMathJax{\newcommand{\gradient}{\mathbf{\nabla}}} \CustomizeMathJax{\let\grad\gradient} \CustomizeMathJax{\let\divisionsymbol\div} \CustomizeMathJax{\newcommand{\divergence}{\nabla\vdot}} \CustomizeMathJax{\let\div\divergence} \CustomizeMathJax{\newcommand{\curl}{\nabla\cross}} \CustomizeMathJax{\newcommand{\laplacian}{\nabla^2}} \ifx\trigopt 1 \CustomizeMathJax{\DeclareMathOperator{\sine}{sin}} \CustomizeMathJax{\DeclareMathOperator{\cosine}{cos}} \CustomizeMathJax{\DeclareMathOperator{\tangent}{tan}} \CustomizeMathJax{\DeclareMathOperator{\cosecant}{csc}} \CustomizeMathJax{\DeclareMathOperator{\secant}{sec}} \CustomizeMathJax{\DeclareMathOperator{\cotangent}{cot}} \CustomizeMathJax{\DeclareMathOperator{\arcsine}{arcsin}} \CustomizeMathJax{\DeclareMathOperator{\arccosine}{arccos}} \CustomizeMathJax{\DeclareMathOperator{\arctangent}{arctan}} \CustomizeMathJax{\DeclareMathOperator{\hypsine}{sinh}} \CustomizeMathJax{\DeclareMathOperator{\hypcosine}{cosh}} \CustomizeMathJax{\DeclareMathOperator{\hyptangent}{tanh}} \CustomizeMathJax{\DeclareMathOperator{\hypcotangent}{coth}} \CustomizeMathJax{\DeclareMathOperator{\exponential}{exp}} \CustomizeMathJax{\DeclareMathOperator{\logarithm}{log}} \CustomizeMathJax{\DeclareMathOperator{\naturallogarithm}{\ln}} \CustomizeMathJax{\DeclareMathOperator{\determinant}{det}} \CustomizeMathJax{\DeclareMathOperator{\Probability}{Pr}} \CustomizeMathJax{\newcommand{\sin}[1][{}]{\mathrm{sin}^#1}} \CustomizeMathJax{\newcommand{\sinh}[1][{}]{\mathrm{sinh}^#1}} \CustomizeMathJax{\newcommand{\arcsin}[1][{}]{\mathrm{arcsin}^#1}} \CustomizeMathJax{\newcommand{\asin}[1][{}]{\mathrm{asin}^#1}} \CustomizeMathJax{\newcommand{\cos}[1][{}]{\mathrm{cos}^#1}} \CustomizeMathJax{\newcommand{\cosh}[1][{}]{\mathrm{cosh}^#1}} \CustomizeMathJax{\newcommand{\arccos}[1][{}]{\mathrm{arccos}^#1}} \CustomizeMathJax{\newcommand{\acos}[1][{}]{\mathrm{acos}^#1}} \CustomizeMathJax{\newcommand{\tan}[1][{}]{\mathrm{tan}^#1}} \CustomizeMathJax{\newcommand{\tanh}[1][{}]{\mathrm{tanh}^#1}} \CustomizeMathJax{\newcommand{\arctan}[1][{}]{\mathrm{arctan}^#1}} \CustomizeMathJax{\newcommand{\atan}[1][{}]{\mathrm{atan}^#1}} \CustomizeMathJax{\newcommand{\csc}[1][{}]{\mathrm{csc}^#1}} \CustomizeMathJax{\newcommand{\csch}[1][{}]{\mathrm{csch}^#1}} \CustomizeMathJax{\newcommand{\arccsc}[1][{}]{\mathrm{arccsc}^#1}} \CustomizeMathJax{\newcommand{\acsc}[1][{}]{\mathrm{acsc}^#1}} \CustomizeMathJax{\newcommand{\sec}[1][{}]{\mathrm{sec}^#1}} \CustomizeMathJax{\newcommand{\sech}[1][{}]{\mathrm{sech}^#1}} \CustomizeMathJax{\newcommand{\arcsec}[1][{}]{\mathrm{arcsec}^#1}} \CustomizeMathJax{\newcommand{\asec}[1][{}]{\mathrm{asec}^#1}} \CustomizeMathJax{\newcommand{\cot}[1][{}]{\mathrm{cot}^#1}} \CustomizeMathJax{\newcommand{\coth}[1][{}]{\mathrm{coth}^#1}} \CustomizeMathJax{\newcommand{\arccot}[1][{}]{\mathrm{arccot}^#1}} \CustomizeMathJax{\newcommand{\acot}[1][{}]{\mathrm{acot}^#1}} \else \CustomizeMathJax{\DeclareMathOperator{\arccsc}{arccsc}} \CustomizeMathJax{\DeclareMathOperator{\arcsec}{arcsec}} \CustomizeMathJax{\DeclareMathOperator{\arccot}{arccot}} \CustomizeMathJax{\DeclareMathOperator{\asin}{asin}} \CustomizeMathJax{\DeclareMathOperator{\acos}{acos}} \CustomizeMathJax{\DeclareMathOperator{\atan}{atan}} \CustomizeMathJax{\DeclareMathOperator{\acsc}{acsc}} \CustomizeMathJax{\DeclareMathOperator{\asec}{asec}} \CustomizeMathJax{\DeclareMathOperator{\acot}{acot}} \CustomizeMathJax{\DeclareMathOperator{\csch}{csch}} \CustomizeMathJax{\DeclareMathOperator{\sech}{sech}} \CustomizeMathJax{\newcommand{\tr}{\trace}} \CustomizeMathJax{\newcommand{\Tr}{\Trace}} \CustomizeMathJax{\newcommand{\Res}{\Residue}} \fi \CustomizeMathJax{\DeclareMathOperator{\trace}{tr}} \CustomizeMathJax{\let\tr\trace} \CustomizeMathJax{\DeclareMathOperator{\Trace}{Tr}} \CustomizeMathJax{\let\Tr\Trace} \CustomizeMathJax{\DeclareMathOperator{\rank}{rank}} \CustomizeMathJax{\DeclareMathOperator{\erf}{erf}} \CustomizeMathJax{\DeclareMathOperator{\Residue}{Res}} \CustomizeMathJax{\newcommand{\principalvalue}{\mathcal{P}}} \CustomizeMathJax{\let\pv\principalvalue} \CustomizeMathJax{\newcommand{\PV}{\text{P.V.}}} \CustomizeMathJax{\newcommand{\real}{\mathcal{R}}} \CustomizeMathJax{\newcommand{\imaginary}{\mathcal{I}}} \CustomizeMathJax{\newcommand{\Re}[1]{\mathrm{Re}\left\lbrace#1\right\rbrace}} \CustomizeMathJax{\newcommand{\Im}[1]{\mathrm{Im}\left\lbrace#1\right\rbrace}} \CustomizeMathJax{\newcommand{\qqtext}[1]{\quad\mathrm{#1}\quad}} \CustomizeMathJax{\let\qq\qqtext} \CustomizeMathJax{\newcommand{\qqcomma}{\text{,}\quad}} \CustomizeMathJax{\let\qc\qqcomma} \CustomizeMathJax{\newcommand{\qcc}{\quad\text{c.c.}\quad}} \CustomizeMathJax{\let\qcc} \CustomizeMathJax{\newcommand{\qif}{\quad\text{if}\quad}} \CustomizeMathJax{\newcommand{\qthen}{\quad\text{then}\quad}} \CustomizeMathJax{\newcommand{\qelse}{\quad\text{else}\quad}} \CustomizeMathJax{\newcommand{\qotherwise}{\quad\text{otherwise}\quad}} \CustomizeMathJax{\newcommand{\qunless}{\quad\text{unless}\quad}} \CustomizeMathJax{\newcommand{\qgiven}{\quad\text{given}\quad}} \CustomizeMathJax{\newcommand{\qusing}{\quad\text{using}\quad}} \CustomizeMathJax{\newcommand{\qassume}{\quad\text{assume}\quad}} \CustomizeMathJax{\newcommand{\qsince}{\quad\text{since}\quad}} \CustomizeMathJax{\newcommand{\qlet}{\quad\text{let}\quad}} \CustomizeMathJax{\newcommand{\qfor}{\quad\text{for}\quad}} \CustomizeMathJax{\newcommand{\qall}{\quad\text{all}\quad}} \CustomizeMathJax{\newcommand{\qeven}{\quad\text{even}\quad}} \CustomizeMathJax{\newcommand{\qodd}{\quad\text{odd}\quad}} \CustomizeMathJax{\newcommand{\qinteger}{\quad\text{integer}\quad}} \CustomizeMathJax{\newcommand{\qand}{\quad\text{and}\quad}} \CustomizeMathJax{\newcommand{\qor}{\quad\text{or}\quad}} \CustomizeMathJax{\newcommand{\qas}{\quad\text{as}\quad}} \CustomizeMathJax{\newcommand{\qin}{\quad\text{in}\quad}} \CustomizeMathJax{\newcommand{\differential}[1][]{\text{d}^{#1}}} \CustomizeMathJax{\let\dd\differential} \CustomizeMathJax{\newcommand{\derivative}[3][]{% \frac{\text{d}^{#1}#2}{\text{d}#3^{#1}}}% } \CustomizeMathJax{\let\dv\derivative} \CustomizeMathJax{\newcommand{\partialderivative}[3][]{% \frac{\partial^{#1}#2}{\partial#3^{#1}}}% } \CustomizeMathJax{\let\pderivative\partialderivative} \CustomizeMathJax{\let\pdv\partialderivative} \CustomizeMathJax{\newcommand{\variation}{\delta}} \CustomizeMathJax{\let\var\variation} \CustomizeMathJax{\newcommand{\functionalderivative}[3][]{% \frac{\delta^{#1}#2}{\delta#3^{#1}}}% } \CustomizeMathJax{\let\fdv\functionalderivative} \CustomizeMathJax{\newcommand{\bra}[1]{\langle{#1}\rvert}} \CustomizeMathJax{\newcommand{\ket}[1]{\lvert{#1}\rangle}} \CustomizeMathJax{\newcommand{\innerproduct}[2]{% \left\langle{#1}\middle\vert{#2}\right\rangle}% } \CustomizeMathJax{\let\braket\innerproduct} \CustomizeMathJax{\let\ip\innerproduct} \CustomizeMathJax{\newcommand{\outerproduct}[2]{% \left\lvert{#1}\middle\rangle\!\middle\langle#2\right\rvert}% } \CustomizeMathJax{\let\dyad\outerproduct} \CustomizeMathJax{\let\op\outerproduct} \CustomizeMathJax{\newcommand{\expectationvalue}[2]{% \left\langle{#2}\middle\vert{#1}\middle\vert{#2}\right\rangle}% } \CustomizeMathJax{\let\expval\expectationvalue} \CustomizeMathJax{\let\ev\expectationvalue} \CustomizeMathJax{\newcommand{\matrixelement}[3]{% \left\langle{#1}\middle\vert{#2}\middle\vert{#3}\right\rangle}% } \CustomizeMathJax{\let\mel\matrixelement} \CustomizeMathJax{\newcommand{\matrixquantity}[1]{\begin{matrix}#1\end{matrix}}} \CustomizeMathJax{\let\mqty\matrixquantity} \CustomizeMathJax{\newcommand{\pmqty}[1]{\begin{pmatrix}#1\end{pmatrix}}} \CustomizeMathJax{\newcommand{\Pmqty}[1]{% \left\lgroup\begin{matrix}#1\end{matrix}\right\rgroup}% } \CustomizeMathJax{\newcommand{\bmqty}[1]{\begin{bmatrix}#1\end{bmatrix}}} \CustomizeMathJax{\newcommand{\vmqty}[1]{\begin{vmatrix}#1\end{vmatrix}}} \CustomizeMathJax{\newcommand{\smallmatrixquantity}[1]{% \begin{smallmatrix}#1\end{smallmatrix}}% } \CustomizeMathJax{\let\smqty\smallmatrixquantity} \CustomizeMathJax{\newcommand{\spmqty}[1]{% \pqty{\begin{smallmatrix}#1\end{smallmatrix}}}% } \CustomizeMathJax{\newcommand{\sPmqty}[1]{% \left\lgroup\begin{smallmatrix}#1\end{smallmatrix}\right\rgroup}% } \CustomizeMathJax{\newcommand{\sbmqty}[1]{% \bqty{\begin{smallmatrix}#1\end{smallmatrix}}}% } \CustomizeMathJax{\newcommand{\svmqty}[1]{% \vqty{\begin{smallmatrix}#1\end{smallmatrix}}}% } \CustomizeMathJax{\let\matrixdeterminant\vmqty} \CustomizeMathJax{\let\mdet\vmqty} \CustomizeMathJax{\let\smdet\svmqty} \CustomizeMathJax{\newcommand{\identitymatrix}[1]{(\text{imat}\{#1\})}} \CustomizeMathJax{\let\imat\identitymatrix} \CustomizeMathJax{\newcommand{\xmatrix}[3]{(\text{xmat}\{\}\{#2\}\{#3\})}} \CustomizeMathJax{\let\xmat\xmatrix} \CustomizeMathJax{\newcommand{\zeromatrix}[2]{(\text{zmat}\{#1\}\{#2\})}} \CustomizeMathJax{\let\zmat\zeromatrix} \CustomizeMathJax{\newcommand{\paulimatrix}[1]{(\text{pmat}\{#1\})}} \CustomizeMathJax{\let\pmat\paulimatrix} \CustomizeMathJax{\newcommand{\diagonalmatrix}[2][]{% \left(\text{dmat}\right)}% } \CustomizeMathJax{\let\dmat\diagonalmatrix} \CustomizeMathJax{\newcommand{\antidiagonalmatrix}[2][]{% \left(\text{admat}\right)}% } \CustomizeMathJax{\let\admat\antidiagonalmatrix} \end{warpMathJax} \endinput %% %% End of file `lwarp-physics.sty'.