\section{Parameters} 


\parskip = 0pt

\setlength{\tableWidth}{160mm}

\setlength{\paraWidth}{\tableWidth}
\setlength{\descWidth}{\tableWidth}
\settowidth{\maxVarWidth}{schedule\_in\_admbasex\_initialdata}

\addtolength{\paraWidth}{-\maxVarWidth}
\addtolength{\paraWidth}{-\columnsep}
\addtolength{\paraWidth}{-\columnsep}
\addtolength{\paraWidth}{-\columnsep}

\addtolength{\descWidth}{-\columnsep}
\addtolength{\descWidth}{-\columnsep}
\addtolength{\descWidth}{-\columnsep}
\noindent \begin{tabular*}{\tableWidth}{|c|l@{\extracolsep{\fill}}r|}
\hline
\multicolumn{1}{|p{\maxVarWidth}}{eps\_r} & {\bf Scope:} private & REAL \\\hline
\multicolumn{3}{|p{\descWidth}|}{{\bf Description:}   {\em Floor value for radial distance}} \\
\hline{\bf Range} & &  {\bf Default:} 1.0d-12 \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering 0:*} & \multicolumn{2}{p{\paraWidth}|}{any small positive value} \\\hline
\end{tabular*}

\vspace{0.5cm}\noindent \begin{tabular*}{\tableWidth}{|c|l@{\extracolsep{\fill}}r|}
\hline
\multicolumn{1}{|p{\maxVarWidth}}{kqi\_m\_plus} & {\bf Scope:} private & REAL \\\hline
\multicolumn{3}{|p{\descWidth}|}{{\bf Description:}   {\em Mass of the Kerr BH}} \\
\hline{\bf Range} & &  {\bf Default:} 1.0 \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering 0.0:*} & \multicolumn{2}{p{\paraWidth}|}{any positive value} \\\hline
\end{tabular*}

\vspace{0.5cm}\noindent \begin{tabular*}{\tableWidth}{|c|l@{\extracolsep{\fill}}r|}
\hline
\multicolumn{1}{|p{\maxVarWidth}}{kqi\_pos\_plus} & {\bf Scope:} private & REAL \\\hline
\multicolumn{3}{|p{\descWidth}|}{{\bf Description:}   {\em Position of the Kerr BH}} \\
\hline{\bf Range} & &  {\bf Default:} 0.0 \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering *:*} & \multicolumn{2}{p{\paraWidth}|}{any value possible; for zero spin set pos\_plus[0]=0.0001} \\\hline
\end{tabular*}

\vspace{0.5cm}\noindent \begin{tabular*}{\tableWidth}{|c|l@{\extracolsep{\fill}}r|}
\hline
\multicolumn{1}{|p{\maxVarWidth}}{kqi\_spin\_plus} & {\bf Scope:} private & REAL \\\hline
\multicolumn{3}{|p{\descWidth}|}{{\bf Description:}   {\em Dimensionless spin of the Kerr BH with z being the rotation axis}} \\
\hline{\bf Range} & &  {\bf Default:} 0.0 \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering 0:1} & \multicolumn{2}{p{\paraWidth}|}{any value between 0 and 1} \\\hline
\end{tabular*}

\vspace{0.5cm}\noindent \begin{tabular*}{\tableWidth}{|c|l@{\extracolsep{\fill}}r|}
\hline
\multicolumn{1}{|p{\maxVarWidth}}{schedule\_in\_admbasex\_initialdata} & {\bf Scope:} private & BOOLEAN \\\hline
\multicolumn{3}{|p{\descWidth}|}{{\bf Description:}   {\em Schedule in (instead of after) ADMBaseX\_InitialData}} \\
\hline & & {\bf Default:} yes \\\hline
\end{tabular*}

\vspace{0.5cm}\noindent \begin{tabular*}{\tableWidth}{|c|l@{\extracolsep{\fill}}r|}
\hline
\multicolumn{1}{|p{\maxVarWidth}}{teukolsky\_mvalue} & {\bf Scope:} private & INT \\\hline
\multicolumn{3}{|p{\descWidth}|}{{\bf Description:}   {\em m value for Teukolsky waves: integer from -2 to 2}} \\
\hline{\bf Range} & &  {\bf Default:} (none) \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering -2:2} & \multicolumn{2}{p{\paraWidth}|}{implemented : m = -2, -1, 0, 1, 2} \\\hline
\end{tabular*}

\vspace{0.5cm}\noindent \begin{tabular*}{\tableWidth}{|c|l@{\extracolsep{\fill}}r|}
\hline
\multicolumn{1}{|p{\maxVarWidth}}{teukolsky\_packet} & {\bf Scope:} private & KEYWORD \\\hline
\multicolumn{3}{|p{\descWidth}|}{{\bf Description:}   {\em Wave packet shape for Teukolsky waves}} \\
\hline{\bf Range} & &  {\bf Default:} eppley \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering eppley} & \multicolumn{2}{p{\paraWidth}|}{Eppley packet: x exp(-x\^2)} \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering evans} & \multicolumn{2}{p{\paraWidth}|}{Evans packet: w\^4 (1-x\^2/w\^2)\^6} \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering square} & \multicolumn{2}{p{\paraWidth}|}{Square packet: (1-x\^2/w\^2)\^2} \\\hline
\end{tabular*}

\vspace{0.5cm}\noindent \begin{tabular*}{\tableWidth}{|c|l@{\extracolsep{\fill}}r|}
\hline
\multicolumn{1}{|p{\maxVarWidth}}{teukolsky\_parity} & {\bf Scope:} private & KEYWORD \\\hline
\multicolumn{3}{|p{\descWidth}|}{{\bf Description:}   {\em Parity for Teukolsky waves: even or odd}} \\
\hline{\bf Range} & &  {\bf Default:} even \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering even} & \multicolumn{2}{p{\paraWidth}|}{even parity} \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering odd} & \multicolumn{2}{p{\paraWidth}|}{odd parity} \\\hline
\end{tabular*}

\vspace{0.5cm}\noindent \begin{tabular*}{\tableWidth}{|c|l@{\extracolsep{\fill}}r|}
\hline
\multicolumn{1}{|p{\maxVarWidth}}{teukolsky\_wavecenter} & {\bf Scope:} private & REAL \\\hline
\multicolumn{3}{|p{\descWidth}|}{{\bf Description:}   {\em Center of propagation for Teukolsky waves}} \\
\hline{\bf Range} & &  {\bf Default:} 0.0 \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering :} & \multicolumn{2}{p{\paraWidth}|}{} \\\hline
\end{tabular*}

\vspace{0.5cm}\noindent \begin{tabular*}{\tableWidth}{|c|l@{\extracolsep{\fill}}r|}
\hline
\multicolumn{1}{|p{\maxVarWidth}}{teukolsky\_wavelength} & {\bf Scope:} private & REAL \\\hline
\multicolumn{3}{|p{\descWidth}|}{{\bf Description:}   {\em Wave length of Teukolsky waves}} \\
\hline{\bf Range} & &  {\bf Default:} 2.0 \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering 0:} & \multicolumn{2}{p{\paraWidth}|}{positive wavelength} \\\hline
\end{tabular*}

\vspace{0.5cm}\noindent \begin{tabular*}{\tableWidth}{|c|l@{\extracolsep{\fill}}r|}
\hline
\multicolumn{1}{|p{\maxVarWidth}}{teukolsky\_wavepulse} & {\bf Scope:} private & REAL \\\hline
\multicolumn{3}{|p{\descWidth}|}{{\bf Description:}   {\em Pulse length/duration for purely ingoing Teukolsky waves}} \\
\hline{\bf Range} & &  {\bf Default:} 1.0 \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering 0:} & \multicolumn{2}{p{\paraWidth}|}{positive pulse} \\\hline
\end{tabular*}

\vspace{0.5cm}\noindent \begin{tabular*}{\tableWidth}{|c|l@{\extracolsep{\fill}}r|}
\hline
\multicolumn{1}{|p{\maxVarWidth}}{teukolsky\_wavesgoing} & {\bf Scope:} private & KEYWORD \\\hline
\multicolumn{3}{|p{\descWidth}|}{{\bf Description:}   {\em Wave propagation direction for Teukolsky waves}} \\
\hline{\bf Range} & &  {\bf Default:} both \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering in} & \multicolumn{2}{p{\paraWidth}|}{Ingoing wave} \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering out} & \multicolumn{2}{p{\paraWidth}|}{Outgoing wave} \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering both} & \multicolumn{2}{p{\paraWidth}|}{In and outgoing wave} \\\hline
\end{tabular*}

\vspace{0.5cm}\noindent \begin{tabular*}{\tableWidth}{|c|l@{\extracolsep{\fill}}r|}
\hline
\multicolumn{1}{|p{\maxVarWidth}}{wave\_amplitude} & {\bf Scope:} private & REAL \\\hline
\multicolumn{3}{|p{\descWidth}|}{{\bf Description:}   {\em Amplitude of gauge wave or linear wave}} \\
\hline{\bf Range} & &  {\bf Default:} 1.0 \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering 0.0:*} & \multicolumn{2}{p{\paraWidth}|}{any positive value} \\\hline
\end{tabular*}

\vspace{0.5cm}\noindent \begin{tabular*}{\tableWidth}{|c|l@{\extracolsep{\fill}}r|}
\hline
\multicolumn{1}{|p{\maxVarWidth}}{wave\_period} & {\bf Scope:} private & REAL \\\hline
\multicolumn{3}{|p{\descWidth}|}{{\bf Description:}   {\em Period of the gauge wave or linear wave}} \\
\hline{\bf Range} & &  {\bf Default:} 1.0 \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering 0.0:*} & \multicolumn{2}{p{\paraWidth}|}{any positive value} \\\hline
\end{tabular*}

\vspace{0.5cm}\noindent \begin{tabular*}{\tableWidth}{|c|l@{\extracolsep{\fill}}r|}
\hline
\multicolumn{1}{|p{\maxVarWidth}}{initial\_data} & {\bf Scope:} shared from ADMBASEX & KEYWORD \\\hline
\multicolumn{3}{|l|}{\bf Extends ranges:}\\ 
\hline\multicolumn{1}{|p{\maxVarWidth}|}{\centering KQI\_ana} & \multicolumn{2}{p{\paraWidth}|}{"KerrQuasiIsotropic: 
 Analytic initial data for single Kerr BH in quasi-isotropic coordinates"} \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering GaugeWave} & \multicolumn{2}{p{\paraWidth}|}{Gauge wave} \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering ShiftedGaugeWave} & \multicolumn{2}{p{\paraWidth}|}{Shifted gauge wave} \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering LinearizedWave} & \multicolumn{2}{p{\paraWidth}|}{Linearized wave} \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering TeukolskyWave} & \multicolumn{2}{p{\paraWidth}|}{Teukolsky wave} \\\hline
\end{tabular*}

\vspace{0.5cm}\noindent \begin{tabular*}{\tableWidth}{|c|l@{\extracolsep{\fill}}r|}
\hline
\multicolumn{1}{|p{\maxVarWidth}}{initial\_lapse} & {\bf Scope:} shared from ADMBASEX & KEYWORD \\\hline
\multicolumn{3}{|l|}{\bf Extends ranges:}\\ 
\hline\multicolumn{1}{|p{\maxVarWidth}|}{\centering KQI\_ana} & \multicolumn{2}{p{\paraWidth}|}{"KerrQuasiIsotropic: 
 analytically extend lapse through origin"} \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering KQI\_prec} & \multicolumn{2}{p{\paraWidth}|}{"KerrQuasiIsotropic: 
 use precollapsed lapse"} \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering KQI\_abs} & \multicolumn{2}{p{\paraWidth}|}{"KerrQuasiIsotropic: 
 use absolute value of lapse (discouraged; better to use KQI\_ana to reproduce QNMs)"} \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering GaugeWave} & \multicolumn{2}{p{\paraWidth}|}{Gauge wave} \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering ShiftedGaugeWave} & \multicolumn{2}{p{\paraWidth}|}{Shifted gauge wave} \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering LinearizedWave} & \multicolumn{2}{p{\paraWidth}|}{Linearized wave} \\\hline
\end{tabular*}

\vspace{0.5cm}\noindent \begin{tabular*}{\tableWidth}{|c|l@{\extracolsep{\fill}}r|}
\hline
\multicolumn{1}{|p{\maxVarWidth}}{initial\_shift} & {\bf Scope:} shared from ADMBASEX & KEYWORD \\\hline
\multicolumn{3}{|l|}{\bf Extends ranges:}\\ 
\hline\multicolumn{1}{|p{\maxVarWidth}|}{\centering KQI\_ana} & \multicolumn{2}{p{\paraWidth}|}{"KerrQuasiIsotropic: 
 anayltic shift"} \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering GaugeWave} & \multicolumn{2}{p{\paraWidth}|}{Gauge wave} \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering ShiftedGaugeWave} & \multicolumn{2}{p{\paraWidth}|}{Shifted gauge wave} \\\multicolumn{1}{|p{\maxVarWidth}|}{\centering LinearizedWave} & \multicolumn{2}{p{\paraWidth}|}{Linearized wave} \\\hline
\end{tabular*}

\vspace{0.5cm}\parskip = 10pt