\documentclass{article} \usepackage{geometry} \geometry{margin=0.75in} \usepackage{nucleardata} \usepackage{booktabs} \usepackage{nopageno} \begin{document} \twocolumn[\centering Example and Test File for \texttt{nucleardata} Package] Commands applied to $^{~40}$Ca \begin{tabular}{cc} \toprule symbol & \nucsymbol{20} \\ \midrule Z & \nucz{calcium}\\ \midrule name & \nucname{20}\\ \midrule Name & \nucName{20}\\ \midrule Spin/parity & \nucspin{20}{41}\\ \midrule mass excess & \nucexcess{20}{41}\\ \midrule atomic mass (u) & \nucamassu{20}{41}\\ \midrule atomic mass (u) & \nucamassu[2]{20}{41}\\ \midrule atomic mass (keV) & \nucamasskev{20}{41}\\ \midrule atomic mass (keV) & \nucamasskev[2]{20}{41}\\ \midrule atomic mass (MeV) & \nucamassmev{20}{41}\\ \midrule atomic mass (MeV) & \nucamassmev[5]{20}{41}\\ \midrule nuclear mass (u) & \nuclearmassu{20}{41}\\ \midrule nuclear mass (keV) & \nuclearmasskev[1]{20}{41}\\ \midrule nuclear mass (MeV) & \nuclearmassmev{20}{41}\\ \midrule BE/A & \nucbea{20}{41} MeV\\ \midrule Q$_{\alpha}$ & \nucQalpha{20}{41} MeV\\ \midrule Q$_{\beta^-}$ & \nucQbeta{20}{41} MeV\\ \midrule Q$_{\beta^+}$ & \nucQposi{20}{41} MeV\\ \midrule Q$_{\epsilon}$ & \nucQec{20}{41} MeV\\ \midrule random A & \nucAran{20} \py{singleAran}\\ \bottomrule \end{tabular} \newpage Halflife Commands applied to $^{~184}$Au \begin{tabular}{cc} \toprule Unit & Value \\ \midrule ns & \nuchalflife[ns]{Au}{184}\\ \midrule us & \nuchalflife[us]{Au}{184}\\ \midrule ms & \nuchalflife[ms]{Au}{184}\\ \midrule s & \nuchalflife[s]{Au}{184}\\ \midrule min & \nuchalflife[min]{Au}{184}\\ \midrule hr & \nuchalflife[hr]{Au}{184}\\ \midrule d & \nuchalflife[d]{Au}{184}\\ \midrule y & \nuchalflife[y]{Au}{184}\\ \midrule My & \nuchalflife[My]{Au}{184}\\ % ev & \nuchalflife[ev]{Au}{184}\\ % kev & \nuchalflife[kev]{Au}{184}\\ % Mev & \nuchalflife[mev]{Au}{184}\\ \bottomrule\\ \end{tabular} Halflife Commands applied to $^{~28}$F \begin{tabular}{cc} \toprule Unit & Value \\ \midrule default & \nuchalflife{F}{28}\\ \midrule fs & \nuchalflife[fs]{F}{28}\\ \midrule ps & \nuchalflife[ps]{F}{28}\\ \midrule s & \nuchalflife[s]{F}{28}\\ \midrule min & \nuchalflife[min]{F}{28}\\ \midrule hr & \nuchalflife[hr]{F}{28}\\ \bottomrule\\ \end{tabular} Five randomly selected nuclides and their masses and halflives \nucrandom{5} % The second chosen Z is \py{zran[1]} which is \nucname{zran[1]} with symbol \nucsymbol{zran[1]}. The randomly chosen mass number is \py{aran[1]}, and the atomic mass of $^{~\py{aran[1]}}$\nucsymbol{zran[1]} is \nucamassu{zran[1]}{aran[1]} u. \begin{tabular}{ccc} \toprule nuclide & mass (u) & halflife\\ \midrule $^{~\py{aran[0]}}$\nucsymbol{zran[0]} & \nucamassu{zran[0]}{aran[0]} & \nuchalflife{zran[0]}{aran[0]}\\ \midrule $^{~\py{aran[1]}}$\nucsymbol{zran[1]} & \nucamassu{zran[1]}{aran[1]} & \nuchalflife{zran[1]}{aran[1]}\\ \midrule $^{~\py{aran[2]}}$\nucsymbol{zran[2]} & \nucamassu{zran[2]}{aran[2]} & \nuchalflife{zran[2]}{aran[2]}\\ \midrule $^{~\py{aran[3]}}$\nucsymbol{zran[3]} & \nucamassu{zran[3]}{aran[3]} & \nuchalflife{zran[3]}{aran[3]}\\ \midrule $^{~\py{aran[4]}}$\nucsymbol{zran[4]} & \nucamassu{zran[4]}{aran[4]} & \nuchalflife{zran[4]}{aran[4]}\\ \bottomrule \end{tabular} \end{document}