弄清楚了这里缺少什么,所以它看起来工作正常。但它看起来不太好。
\documentclass{article}
\usepackage{amsthm}
\usepackage[cmintegrals]{newtxmath}
\usepackage{amssymb}
\begin{document}
\begin{equation*}
W_{chaste1}=\frac{1}{2}e^{\left[-Z_{\alpha}T_{3}^{\frac{2}{\alpha}}A^{2}Q^{2}\left[\upsilon_{0}\left(\frac{L_{0}}{L_{3}}\right)^{\frac{2}{\alpha}}+\upsilon_{1}\left(\frac{L_{1}}{L_{3}}\right)^{\frac{2}{\alpha}} + \upsilon_{2} \right]
-Z_{\alpha}T_{2}^{\frac{2}{\alpha}}A^{2}Q^{2}\left\{\upsilon_{0}\left(\frac{L_{0}}{L_{2}}\right)^{\frac{2}{\alpha}}+\upsilon_{1}\left(\frac{L_{1}}{L_{2}}\right)^{\frac{2}{\alpha}} + \upsilon_{2}
+Z_{\alpha}T_{3}^{\frac{2}{\alpha}}Q^{2} + \upsilon_{0} \left[\left(\frac{L_{0}}{L_{3}}\right)^{\frac{2}{\alpha}} + \upsilon_{1} \left(\frac{L_{1}}{L_{3}}\right)^{\frac{2}{\alpha}} + \upsilon_{2}
\right]\right\}\right]}
\end{equation*}
编辑:@Marmot 回答了有关代码的问题,我进行了相应的编辑。但是,这在 latex 中能看起来更好吗?
答案1
(备注:我更新了代码和截图,以使解决方案与 OP 发布的修改后的代码相对应。)
除了修复缺少反斜杠的问题之外,您还应该 (a) 使用环境multline*并引入两个换行符,以及 (b) 使用内联分数表示法。这样,圆括号、方括号和花括号就不必太大了。请注意,新修改的代码恰好使用了零个 和\left实例\right。
\documentclass{article}
\usepackage{amsthm,amssymb}
\usepackage{newtxtext}
\usepackage[cmintegrals]{newtxmath}
\begin{document}
\begin{multline*}
W_{\textup{chaste1}}=\tfrac{1}{2} \exp\Bigl[
-Z^{}_{\alpha}T_{3}^{2/\alpha}A^{2}Q^{2} \bigl[
\upsilon_{0}(L_{0}/L_{3})^{2/\alpha}
+ \upsilon_{1}(L_{1}/L_{3})^{2/\alpha}
+ \upsilon_{2} \bigr] \\
-Z^{}_{\alpha} T_{2}^{2/\alpha}A^{2}Q^{2} \Bigl\{
\upsilon_{0}(L_{1}/L_{2})^{2/\alpha}
+ \upsilon_{1}(L_{1}/L_{2})^{2/\alpha}
+ \upsilon_{2} \\
+Z^{}_{\alpha} T_{3}^{2/\alpha}Q^{2}
+ \upsilon_{0} \bigl[(L_{0}/L_{3})^{2/\alpha}
+ \upsilon_{1} (L_{1}/L_{3})^{2/\alpha}
+ \upsilon_{2} \bigr]
\Bigr\} \Bigr]
\end{multline*}
\end{document}
附录:根据变量的含义,一个align*环境(具有适当选择的对齐点)可能比multline*上面采用的环境更可取。
\documentclass{article}
\usepackage{amsthm,amssymb,amsmath}
\usepackage{newtxtext}
\usepackage[cmintegrals]{newtxmath}
\newcommand\Zalpha{Z^{\vphantom{/}}_{\alpha\vphantom{2}}}
\begin{document}
\begin{align*}
W_{\textup{chaste1}}=\tfrac{1}{2} \exp\Bigl[
-&\Zalpha T_{3}^{\,2/\alpha} A^{2}Q^{2} \bigl[
\upsilon_{0}(L_{0}/L_{3}{)}^{2/\alpha}
+ \upsilon_{1}(L_{1}/L_{3}{)}^{2/\alpha}
+ \upsilon_{2} \bigr] \\
{}-{}&\Zalpha T_{2}^{\,2/\alpha} A^{2}Q^{2} \Bigl\{
\upsilon_{0}(L_{1}/L_{2}{)}^{2/\alpha}
+ \upsilon_{1}(L_{1}/L_{2}{)}^{2/\alpha}
+ \upsilon_{2} \\
{}+{}&\Zalpha T_{3}^{\,2/\alpha}Q^{2}
+ \upsilon_{0} \bigl[(L_{0}/L_{3}{)}^{2/\alpha}
+ \upsilon_{1} (L_{1}/L_{3}{)}^{2/\alpha}
+ \upsilon_{2} \bigr]
\Bigr\} \Bigr]
\end{align*}
\end{document}
答案2
e^如果指数的参数那么长,我就不会使用。
\documentclass{article}
\usepackage{amsthm}
\usepackage[cmintegrals]{newtxmath}
\usepackage{amssymb}
\begin{document}
\begin{align*}
W_\mathrm{chaste1}=\frac{1}{2}\exp&\left[-Z_{\alpha}T_{3}^{\frac{2}
{\alpha}}A^{2}Q^{2}\left\{\upsilon_{0}\left(\frac{L_{0}}{L_{3}}\right)^{\frac{2}{\alpha}}+\upsilon_{1}\left(\frac{L_{1}}{L_{3}}\right)^{\frac{2}{\alpha}}
+ \upsilon_{2} \right\}\right.\\
&{}~\left.
-Z_{\alpha}T_{2}^{\frac{2}{\alpha}}A^{2}Q^{2}\left\{\upsilon_{0}\left(\frac{L_{0}}{L_{2}}\right)^{\frac{2}{\alpha}}+\upsilon_{1}\left(\frac{L_{1}}{L_{2}}\right)^{\frac{2}{\alpha}}
+ \upsilon_{2} + Z_{\alpha}T_{3}^{\frac{2}{\alpha}}Q^{2} +
\upsilon_{0} \left[\left(\frac{L_{0}}{L_{3}}\right)^{\frac{2}{\alpha}} +
\upsilon_{1} \left(\frac{L_{1}}{L_{3}}\right)^{\frac{2}{\alpha}} +
\upsilon_{2}\right]\right\}\right]
\end{align*}
\end{document}
