Commit 270288a3 authored by snuverink_j's avatar snuverink_j
Browse files

fix tabhead

parent 09c613f8
......@@ -188,7 +188,7 @@ The bending magnet definition in TRACE 3D requires:
\label{tab:Bend_Trace}
\begin{tabular}{|l|l|l|}
\hline
\tabhead{Parameter & Value & Description}
\tabhead Parameter & Value & Description \\
\hline
NT & 8 & Type code for bending \\
$\alpha$ [deg] & 30 & angle of bend in horizontal plane \\
......@@ -205,7 +205,7 @@ The edge angles are described with another type code and parameters which includ
\label{tab:Edge_Trace}
\begin{tabular}{|l|l|l|}
\hline
\tabhead{Parameter & Value & Description}
\tabhead Parameter & Value & Description \\
\hline
NT & 9 & Type code for edge \\
$\beta$ [deg] & 10 & pole-face rotation \\
......@@ -231,7 +231,7 @@ The bending magnet definition in TRANSPORT requires:
\label{tab:Bend_Trans}
\begin{tabular}{|l|l|l|}
\hline
\tabhead{Parameter & Value & Description}
\tabhead Parameter & Value & Description \\
\hline
Card & 4 & Type code for bending \\
L [m] & 30 & Effective length of the central trajectory \\
......@@ -247,7 +247,7 @@ As for TRACE 3D, the edge angles are described with another card and parameters.
\label{tab:Edge_Trans}
\begin{tabular}{|l|l|l|}
\hline
\tabhead{Parameter & Value & Description}
\tabhead Parameter & Value & Description \\
\hline
Card & 2 & Type code for edge \\
$\beta$ [deg] & 10 & pole-face rotation \\
......@@ -340,7 +340,7 @@ The same comparison has been performed in terms of horizontal and longitudinal e
\label{tab:Bend_Trace_Tra2}
\begin{tabular}{|l|l|l|}
\hline
\tabhead{Parameter & Trace 3D & Transport}
\tabhead Parameter & Trace 3D & Transport \\
\hline
\textbf{Bend card} & 8 & 4 \\
Angle & Input parameter [deg] & Output information [deg] \\
......@@ -387,7 +387,7 @@ In \textit{OPAL}, the beam dynamics approach (time integration) is hence complet
\label{tab:Features}
\begin{tabular}{|l|l|l|l|}
\hline
\tabhead{Code & TRACE 3D & TRANSPORT & \textit{OPAL}}
\tabhead Code & TRACE 3D & TRANSPORT & \textit{OPAL} \\
\hline
\textbf{Type} & Envelope & Envelope & Time integration \\
%\hline
......@@ -576,7 +576,7 @@ Concerning the emittances and vertical beam size, a perfect agreement has been f
\label{tab:Bend_Trace_OPAL}
\begin{tabular}{|l|l|l|}
\hline
\tabhead{Parameter & Trace 3D & \textit{OPAL-t}}
\tabhead Parameter & Trace 3D & \textit{OPAL-t} \\
\hline
\textbf{Bend card} & 8 & \texttt{SBEND} or \texttt{RBEND} \\
Angle & Input parameter [deg] & Input/Calc. parameter [rad] \\
......
......@@ -19,7 +19,7 @@
\label{tab:disttypes}
\begin{tabularx}{\textwidth-1cm}{|l|X|}
\hline
\tabhead{Distribution Type & Description}
\tabhead Distribution Type & Description \\
\hline
\tabline{FROMFILE}{Initial distribution read in from text file provided by user
see~Section~\ref{fromfiledisttype}.}
......@@ -82,7 +82,7 @@ Table~\ref{distattrinputmounits}.
\label{tab:distattrinputmounits}
\begin{tabularx}{\textwidth-1cm}{|l|c|X|}
\hline
\tabhead{Attribute Name & Value & Description}
\tabhead Attribute Name & Value & Description \\
\hline
\tabline{INPUTMOUNITS}{\texttt{NONE} (default for \textit{OPAL-t}) & Use no units for the input momentum (e.g. $p_{x}$, $p_{y}$, $p_{z}$). Momentum is given as $\beta_{x} \gamma$, $\beta_{y} \gamma$ and $\beta_{z} \gamma$, as in Section~\ref{variablesopalt}.}
\tabline{INPUTMOUNITS}{\index{INPUTMOUNITS} \texttt{EV} (default for \textit{OPAL-cycl}) & Use the units {eV} for the input momentum (e.g. $p_{x}$, $p_{y}$, $p_{z}$).}
......@@ -110,7 +110,7 @@ distributions. The default is an \emph{injected} distribution.
\label{tab:distattremitted}
\begin{tabularx}{\textwidth-1cm}{|l|c|X|}
\hline
\tabhead{Attribute Name & Value & Description }
\tabhead Attribute Name & Value & Description \\
\hline
\tabline{EMITTED}{\index{EMITTED} \texttt{FALSE} (default) & The distribution is injected into the simulation in its entirety
at the start of the simulation. The particle coordinates for an injected distribution are defined as in
......@@ -139,7 +139,7 @@ Table~\ref{distattruniversal,distattrinjected,distattrsemitted}.
\label{tab:distattruniversal}
\begin{tabularx}{\textwidth-1cm}{|l|c|c|X|}
\hline
\tabhead{Attribute Name & Default Value & Units & Description }
\tabhead Attribute Name & Default Value & Units & Description \\
\hline
\tabline{WRITETOFILE}{\index{WRITETOFILE} \texttt{FALSE} & None & Echo initial distribution to text file \textit{data/\textless basename \textgreater\_ DIST.dat}.}
%\hline
......@@ -203,7 +203,7 @@ Table~\ref{distattruniversal,distattrinjected,distattrsemitted}.
\label{tab:distattrinjected}
\begin{tabularx}{\textwidth-1cm}{|l|c|c|X|}
\hline
\tabhead{Attribute Name & Default Value & Units & Description }
\tabhead Attribute Name & Default Value & Units & Description \\
\hline
\tabline{ZMULT}{\index{ZMULT} {1.0} & None & Value used to scale the $z$ positions of the distribution
particles. Applied after the distribution is generated (or read in).}
......@@ -223,7 +223,7 @@ Table~\ref{distattruniversal,distattrinjected,distattrsemitted}.
\label{tab:distattrsemitted}
\begin{tabularx}{\textwidth-1cm}{|l|c|c|X|}
\hline
\tabhead{Attribute Name & Default Value & Units & Description }
\tabhead Attribute Name & Default Value & Units & Description \\
\hline
\tabline{TMULT}{\index{TMULT} {1.0} & None & Value used to scale the $t$ values of the distribution
particles. Applied after the distribution is generated (or read in).}
......@@ -257,7 +257,7 @@ we list the single attribute specific to this type of distribution type.
\label{tab:distattrfromfile}
\begin{tabularx}{\textwidth-1cm}{|l|c|c|X|}
\hline
\tabhead{Attribute Name & Default Value & Units & Description }
\tabhead Attribute Name & Default Value & Units & Description \\
\hline
\tabline{FNAME}{\index{FNAME} None & None & File name for text file containing distribution particle coordinates.}
\hline
......@@ -358,7 +358,7 @@ We will begin by describing how to create a simple \texttt{GAUSS} distribution t
\label{tab:distattrgauss}
\begin{tabularx}{\textwidth-1cm}{|l|c|c|X|}
\hline
\tabhead{Attribute Name & Default Value & Units & Description }
\tabhead Attribute Name & Default Value & Units & Description \\
\hline
\tabline{SIGMAX}{\index{SIGMAX} {0.0} & {m} & RMS width, $\sigma_{x}$, in transverse $x$ direction.}
%\hline
......@@ -449,7 +449,7 @@ at an average position of $(\bar{x},\bar{y},\bar{z})=({1.0}{mm}, {-2.0}{mm}, {10
\label{tab:distattremittedgauss}
\begin{tabularx}{\textwidth-1cm}{|l|c|c|X|}
\hline
\tabhead{Attribute Name & Default Value & Units & Description }
\tabhead Attribute Name & Default Value & Units & Description \\
\hline
\tabline{TPULSEFWHM}{\index{TPULSEFWHM} {0.0} & {s} & Flat top time see~Figure~\ref{flattop}. }
%\hline
......@@ -522,7 +522,7 @@ the amplitude of the oscillation will be $0.05$.
\label{tab:distattrcorrgauss}
\begin{tabularx}{\textwidth-1cm}{|l|c|c|X|}
\hline
\tabhead{Attribute Name & Default Value & Units & Description }
\tabhead Attribute Name & Default Value & Units & Description \\
\hline
\tabline{CORRX}{\index{CORRX} {0.0} & Section~\ref{unitsdistattributes} & $x$, $p_x$ correlation.
($R_{12}$ in transport notation.)}
......@@ -626,7 +626,7 @@ with a uniform distribution in $z$. (Basically a cylinder with an elliptical cro
\label{tab:distattrflattopinj}
\begin{tabularx}{\textwidth-1cm}{|l|c|c|X|}
\hline
\tabhead{Attribute Name & Default Value & Units & Description }
\tabhead Attribute Name & Default Value & Units & Description \\
\hline
\tabline{SIGMAX}{\index{SIGMAX} {0.0} & {m} & Hard edge width in $x$ direction.}
%\hline
......@@ -649,7 +649,7 @@ with a uniform distribution in $z$. (Basically a cylinder with an elliptical cro
\label{tab:distattrflattopemit}
\begin{tabularx}{\textwidth - 1cm}{|l|c|c|X|}
\hline
\tabhead{Attribute Name & Default Value & Units & Description }
\tabhead Attribute Name & Default Value & Units & Description \\
\hline
\tabline{SIGMAX}{\index{SIGMAX} {0.0} & {m} & Hard edge width in $x$ direction.}
%\hline
......@@ -751,7 +751,7 @@ as listed in Table~\ref{binomdist}.
\label{tab:binomdist}
\begin{tabularx}{\textwidth-1cm}{|l|l|l|X|}
\hline
\tabhead{$m$ & Distribution & Density & Profile }
\tabhead $m$ & Distribution & Density & Profile \\
\hline
{0.0} & Hollow shell & $\frac{1}{\pi}\delta(1-r^2)$ &$\frac{1}{\pi}(1-r^2)^{-0.5}$\\
%\hline
......@@ -792,7 +792,7 @@ as it leaves the cathode.
\label{tab:distattremitmodelnoneastra}
\begin{tabularx}{\textwidth-1cm}{|l|c|c|X|}
\hline
\tabhead{Attribute Name & Default Value & Units & Description }
\tabhead Attribute Name & Default Value & Units & Description \\
\hline
\tabline{EKIN}{\index{EKIN} {1.0} &{eV} & Thermal energy added to beam during emission.}
\hline
......@@ -858,7 +858,7 @@ Table~\ref{distattremitmodelnonequil}.
\label{tab:distattremitmodelnonequil}
\begin{tabularx}{\textwidth-1cm}{|l|c|c|X|}
\hline
\tabhead{Attribute Name & Default Value & Units & Description}
\tabhead Attribute Name & Default Value & Units & Description \\
\hline
\tabline{ELASER}{\index{ELASER} {4.86} & {eV} & Photoinjector drive laser energy. (Default is {255}{nm} light.)}
%\hline
......
......@@ -81,7 +81,7 @@ FINSSGUN: RFCavity, L = 0.175,
\label{tab:fieldfmissioncmd}
\begin{tabular}{|l|p{0.7\textwidth}|l|}
\hline
\tabhead{Command & Purpose (Default)}
\tabhead Command & Purpose (Default) \\
\hline
\tabline{FNA}{Empirical constant A for F-N emission model ({1.54e-6}) \index{FNA}}
\tabline{FNB}{Empirical constant B for F-N emission model ({6.83e9}) \index{FNB}}
......
......@@ -325,7 +325,7 @@ See Table~\ref{fieldsolvercmd} for a summary of the Fieldsolver command.
\label{tab:fieldsolvercmd}
\begin{tabular}{|l|p{0.6\textwidth}|l|}
\hline
\tabhead{Command & Purpose}
\tabhead Command & Purpose \\
\hline
\tabline{FIELDSOLVER}{Specify a fieldsolver}
\tabline{FSTYPE}{Specify the type of field solver: \texttt{FFT}, \texttt{FFTPERIODIC}, \texttt{MG}, \texttt{FMG} (AMR only) and \texttt{NONE}
......@@ -427,7 +427,7 @@ The behavior of the preconditioner can be: \texttt{STD}\index{PRECMODE!STD}, \te
\label{tab:preconditioner_behaviour}
\begin{tabular}{|l|p{0.6\textwidth}|}
\hline
\tabhead{Value & Behavior}
\tabhead Value & Behavior \\
\hline
\texttt{STD} & The preconditioner is rebuilt in every time step (enabled by default) \\
\texttt{HIERARCHY} & The hierarchy (tentative prolongator) is reused \\
......@@ -467,7 +467,7 @@ simulation one requires following ingredients:
\label{tab:tagging_strategies}
\begin{tabular}{|l|p{0.6\textwidth}|}
\hline
\tabhead{Value & Behavior}
\tabhead Value & Behavior \\
\hline
\texttt{POTENTIAL} & Mark each cell if $\phi^{level}_{cell}\ge\alpha\max\phi^{level}$, where $\alpha\in[0, 1]$ is the
scaling factor \texttt{AMR\_SCALING} \\
......
......@@ -18,7 +18,7 @@ At present the \texttt{GEOMETRY} command is still an \textbf{experimental featur
\label{tab:geometrycmd}
\begin{tabular}{|l|p{0.6\textwidth}|l|}
\hline
\tabhead{Command & Purpose}
\tabhead Command & Purpose \\
\hline
\tabline{GEOMETRY}{Specify a geometry}
\tabline{FGEOM}{Specifies the \textsc{H5Fed} geometry file}
......
......@@ -161,7 +161,7 @@ Now you are ready to build \textit{OPAL}\ with AMR support.
\label{tbl:debug_flags}
\begin{tabular}{lll}
\hline
\tabhead{Name & Description & Default}
\tabhead Name & Description & Default \\
\hline
DBG\_SCALARFIELD & dumps scalar potential on the grid & not set \\
DBG\_STENCIL & dumps stencil (SAAMG solver) to a Matlab readable file & not set \\
......
......@@ -17,7 +17,7 @@ Please note Matching are not yet supported in \texttt{DOPAL-t} and \texttt{DOPAL
\label{tab:matchcmd}
\begin{tabular}{|l|p{0.6\textwidth}|l|}
\hline
\tabhead{Command & Purpose}
\tabhead Command & Purpose \\
\hline
\tabline{MATCH}{Enter matching mode}
\tabline{name=expression}{Parameter relation}
......
......@@ -93,7 +93,7 @@ The following example shows the usage of the multipacting simulation related com
\label{tab:Multipactingcmd}
\begin{tabular}{|l|p{0.8\textwidth}|l|}
\hline
\tabhead{Command &Purpose (Default)}
\tabhead Command &Purpose (Default) \\
\hline
\texttt{VW} \index{VW} & Velocity scalar in Maxwellian Dist ({1.0}{m/s})\\
\texttt{VVTHERMAL} \index{VVTHERMAL} & Thermal velocity in Maxwellian Dist ({7.268929821e5}{m/s})\\
......
......@@ -1317,7 +1317,7 @@ otherwise the modified sequence is stored under its old name.
\label{tab:edit}
\begin{tabular}{|p{0.3\textwidth}|p{0.6\textwidth}|}
\hline
\tabhead{Command & Purpose}
\tabhead Command & Purpose \\
\hline
\tabline{SELECT}{Select elements to be affected}
\tabline{CYCLE}{Change starting point (cyclic interchange)}
......
......@@ -161,7 +161,7 @@ finishing (n-1) steps.
\label{table:Materials}
\begin{tabular}{|c|c|c|c|c|c|c|c|c|c|}
\hline
\tabhead{Material & Z & A & $\rho$ [$g/cm^3$] & X0 [$g/cm^2$] & A2 & A3 & A4 & A5 & \textit{OPAL} Name}
\tabhead Material & Z & A & $\rho$ [$g/cm^3$] & X0 [$g/cm^2$] & A2 & A3 & A4 & A5 & \textit{OPAL} Name \\
\hline
Aluminum & 13 & 26.98 & 2.7 & 24.01 & 4.739 & 2766 & 164.5 & 2.023E-02 & \texttt{Aluminum }\\
%\hline
......
......@@ -10,7 +10,7 @@
\label{tab:trackcmd}
\begin{tabular}{|p{0.3\textwidth}|p{0.6\textwidth}|}
\hline
\tabhead{Command & Purpose}
\tabhead Command & Purpose \\
\hline
\tabline{TRACK}{Enter tracking mode}
\tabline{LINE}{Label of \texttt{LINE} or \texttt{SEQUENCE}}
......
......@@ -35,7 +35,7 @@ One can exit from this session with the command \texttt{QUIT;} (including the se
For batch runs \textit{OPAL} accepts the following command line arguments:\\
\begin{tabular}{|l|l|p{10cm}|}
\hline
\tabhead{Argument & Values & Function}
\tabhead Argument & Values & Function \\
\hline
-{}-input & \textless file \textgreater & the input file. Using ``-{}-input'' is optional. Instead the input file can be provided either as first or as last argument.\\
-{}-info & {0} -- {5} & {controls the amount of output to the command line. {0} means no or scarce output, {5} means a lot of output. Default: {1}.\\ Full support currently only in \textit{OPAL-t}.} \\
......
......@@ -107,7 +107,7 @@ label:WAKE, TYPE=string, NBIN=real, FILTERS=string-array;
\label{tab:wakefieldcmd}
\begin{tabular}{|l|p{0.6\textwidth}|l|}
\hline
\tabhead{Command & Purpose}
\tabhead Command & Purpose \\
\hline
\tabline{WAKE}{Specify a wakefield}
\tabline{TYPE}{\sloppy Specify the wake function [\texttt{1D-CSR}, \texttt{1D-CSR-IGF}, \texttt{LONG-SHORT-RANGE}, \texttt{TRANSV-SHORT-RANGE}, \texttt{LONG-TRANSV-SHORT-RANGE}]}
......
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