\begin{table}
\caption{Solution to $\delta$ Orionis from \texttt{PHOEBE 1}.}
\small
\label{result}
\renewcommand{\arraystretch}{1.3}
\sisetup{separate-uncertainty,table-column-width=9em}
\begin{minipage}[t]{0.57\textwidth}
\begin{tabular}[t]{lS[table-format = 3.2(3)]
}
\hline\hline
{Parameters} &{Values} \\
\hline
$a$ [\Rnom] & 41.91(18) \\
$\omega$ [$^\circ$] & 148.73(149) \\
$\gamma$ [ km/s) & 21.96(33) \\
$i$ [$^\circ$] & 78.1(3) \\
\hline
\end{tabular}\\
\begin{tabular}{lS[table-format = 2.3,table-space-text-pre=\hspace{0.5em}]
S[table-format = 2.3,table-space-text-post=\hspace{0.7em}]@{\hskip -0.66em}}
$M_1$ [\Mnom] & 21.1 \\
$M_2$ [\Mnom] & 8.8 \\
$R_1$ [\Rnom] & 13.6 \\
$R_2$ [\Rnom] & 3.7 \\
$M_{\mathrm{bol}_1}$ [mag] & -8.28 \\
$M_{\mathrm{bol}_2}$ [mag] & -4.55 \\
$L_{\mathrm{R}_1}$ & 0.690 \\
$L_{\mathrm{R}_2}$ & 0.037 \\
$\log g_1$ [cgs] & 3.50 \\
$\log g_2$ [cgs] & 4.24 \\
$ \chi^2_\mathrm{N}$ & 11.389 \\
\hline
\end{tabular}
\end{minipage}\quad
\begin{minipage}[t]{0.3\textwidth}
\begin{tabular}[t]{ll}
\hline\hline
{Fixed param.} & {Values} \\
\hline
$P$ [d] & 5.732436$^*$ \\
$\dot{\omega } $ [$^\circ$/d] & 0.004220$^*$ \\
$q = M_2/M_1$ & 0.41549$^{**}$ \\
$e$ & 0.07583$^{**}$ \\
$T_{\mathrm{eff}_1}$ [K] & 31401$^{***}$ \\
$T_{\mathrm{eff}_2}$ [K] & 25442$^{***}$ \\
$L_{\mathrm{R}_3}$ & 0.273$^{***}$ \\
\noalign{\smallskip}\hline\noalign{\smallskip}
\end{tabular}
$^*$ \citet{Mayer2010}
$^{**}$ from \texttt{KOREL}
$^{***}$ from \texttt{Pyterpol}
\end{minipage}
\vspace{-20pt}
\end{table}
答案1
以下是两个不同的建议:
\documentclass[12pt,a4paper]{report}
\usepackage[detect-none]{siunitx}
\sisetup{range-phrase = \text{--}} % dashes for range of numbers
\newcommand{\Rnom}{\hbox{$\mathcal{R}_{\odot}$}}
\newcommand{\Mnom}{\hbox{$\mathcal{M}_{\odot}$}}
\usepackage{booktabs} % only used for second example
\begin{document}
\begin{table}
\caption{Table}
\small
\label{result}
\renewcommand{\arraystretch}{1.3}
\centering
\sisetup{separate-uncertainty}
\begin{tabular}[t]{lS[table-format = 2.2(1.2)]}
\hline\hline
{Parameters} & {Values} \\
\hline
$a$ [\Rnom] & 41.91(18) \\
\hline
$M_1$ [\Mnom] & 21.1 \\
\hline
\end{tabular}
\quad
\begin{tabular}[t]{lS[table-format=1.6, table-space-text-post={$^*$}]}
\hline\hline
{Fixed param.} & {Values} \\
\hline
$P$ [d] & 5.732436$^*$ \\
\hline
\multicolumn{2}{l}{$^{***}$ from \texttt{Pyterpol}}
\end{tabular}
\end{table}
\begin{table}
\caption{Table}
\label{result}
\centering
\sisetup{separate-uncertainty}
\begin{tabular}[t]{lS[table-format = 2.2(2)]}
\toprule
{Parameters} & {Values} \\
\midrule
$a$ [\Rnom] & 41.91(18) \\\addlinespace
$M_1$ [\Mnom] & 21.1 \\
\bottomrule
\end{tabular}
\quad
\begin{tabular}[t]{lS[table-format=1.6, table-space-text-post={$^*$}]}
\toprule
{Fixed param.} & {Values} \\
\midrule
$P$ [d] & 5.732436$^*$ \\
\bottomrule
\multicolumn{2}{l}{$^{***}$ from \texttt{Pyterpol}}
\end{tabular}
\end{table}
\end{document}
\documentclass[12pt,a4paper]{report}
\usepackage[detect-none]{siunitx}
\sisetup{range-phrase = \text{--}} % dashes for range of numbers
\newcommand{\Rnom}{\hbox{$\mathcal{R}_{\odot}$}}
\newcommand{\Mnom}{\hbox{$\mathcal{M}_{\odot}$}}
\usepackage{natbib}
\usepackage{booktabs} % only used for second example
\begin{document}
\begin{table}
\caption{Solution to $\delta$ Orionis from \texttt{PHOEBE 1}.}
\small
\label{result}
\centering
\renewcommand{\arraystretch}{1.3}
\sisetup{separate-uncertainty}
\begin{tabular}[t]{l}
\begin{tabular}[t]{lS[table-format = 3.2(3)]}
\hline\hline
{Parameters} &{Values} \\
\hline
$a$ [\Rnom] & 41.91(18) \\
$\omega$ [$^\circ$] & 148.73(149) \\
$\gamma$ [ km/s) & 21.96(33) \\
$i$ [$^\circ$] & 78.1(3) \\
\hline
\end{tabular}
\\
\begin{tabular}{lS[table-format = -2.3]}
$M_1$ [\Mnom] & 21.1 \\
$M_2$ [\Mnom] & 8.8 \\
$R_1$ [\Rnom] & 13.6 \\
$R_2$ [\Rnom] & 3.7 \\
$M_{\mathrm{bol}_1}$ [mag] & -8.28 \\
$M_{\mathrm{bol}_2}$ [mag] & -4.55 \\
$L_{\mathrm{R}_1}$ & 0.690 \\
$L_{\mathrm{R}_2}$ & 0.037 \\
$\log g_1$ [cgs] & 3.50 \\
$\log g_2$ [cgs] & 4.24 \\
$ \chi^2_\mathrm{N}$ & 11.389 \\
\hline
\end{tabular}
\end{tabular}
\quad
\begin{tabular}[t]{lS[table-format=1.6, table-space-text-post={$^{***}$}, table-align-text-post=false]}
\hline\hline
{Fixed param.} & {Values} \\
\hline
$P$ [d] & 5.732436$^*$ \\
$\dot{\omega } $ [$^\circ$/d] & 0.004220$^*$ \\
$q = M_2/M_1$ & 0.41549$^{**}$ \\
$e$ & 0.07583$^{**}$ \\
$T_{\mathrm{eff}_1}$ [K] & {31401$^{***}$} \\
$T_{\mathrm{eff}_2}$ [K] & {25442$^{***}$} \\
$L_{\mathrm{R}_3}$ & 0.273$^{***}$ \\
\hline
\multicolumn{2}{l}{$^*$ \citet{Mayer2010}}\\
\multicolumn{2}{l}{$^{**}$ from \texttt{KOREL}}\\
\multicolumn{2}{l}{$^{***}$ from \texttt{Pyterpol}}\\
\end{tabular}
\end{table}
\begin{table}
\caption{Solution to $\delta$ Orionis from \texttt{PHOEBE 1}.}
\small
\label{result}
\centering
\renewcommand{\arraystretch}{1.3}
\sisetup{separate-uncertainty}
\begin{tabular}[t]{l}
\begin{tabular}[t]{lS[table-format = 3.2(3)]}
\toprule
{Parameters} &{Values} \\
\midrule
$a$ [\Rnom] & 41.91(18) \\
$\omega$ [$^\circ$] & 148.73(149) \\
$\gamma$ [ km/s) & 21.96(33) \\
$i$ [$^\circ$] & 78.1(3) \\
\midrule
\end{tabular}
\\
\begin{tabular}{lS[table-format = -2.3]}
$M_1$ [\Mnom] & 21.1 \\
$M_2$ [\Mnom] & 8.8 \\
$R_1$ [\Rnom] & 13.6 \\
$R_2$ [\Rnom] & 3.7 \\
$M_{\mathrm{bol}_1}$ [mag] & -8.28 \\
$M_{\mathrm{bol}_2}$ [mag] & -4.55 \\
$L_{\mathrm{R}_1}$ & 0.690 \\
$L_{\mathrm{R}_2}$ & 0.037 \\
$\log g_1$ [cgs] & 3.50 \\
$\log g_2$ [cgs] & 4.24 \\
$ \chi^2_\mathrm{N}$ & 11.389 \\
\bottomrule
\end{tabular}
\end{tabular}
\quad
\begin{tabular}[t]{lS[table-format=1.6, table-space-text-post={$^{***}$}, table-align-text-post=false]}
\toprule
{Fixed param.} & {Values} \\
\midrule
$P$ [d] & 5.732436$^*$ \\
$\dot{\omega } $ [$^\circ$/d] & 0.004220$^*$ \\
$q = M_2/M_1$ & 0.41549$^{**}$ \\
$e$ & 0.07583$^{**}$ \\
$T_{\mathrm{eff}_1}$ [K] & {31401$^{***}$} \\
$T_{\mathrm{eff}_2}$ [K] & {25442$^{***}$} \\
$L_{\mathrm{R}_3}$ & 0.273$^{***}$ \\
\bottomrule
\multicolumn{2}{l}{$^*$ \citet{Mayer2010}}\\
\multicolumn{2}{l}{$^{**}$ from \texttt{KOREL}}\\
\multicolumn{2}{l}{$^{***}$ from \texttt{Pyterpol}}\\
\end{tabular}
\end{table}
\end{document}