![aligned与选项一起使用[t]?](https://linux22.com/image/413204/aligned%E4%B8%8E%E9%80%89%E9%A1%B9%E4%B8%80%E8%B5%B7%E4%BD%BF%E7%94%A8%5Bt%5D%EF%BC%9F.png)
我正在尝试使第三个等式(从顶部开始,delta \phi^i 的方程式)对齐。
\begin{align*}
U(x) &= e^{i\theta^a(x)T^a} & U(x) &= e^{-\theta^a(x)(t_a)^i{}_j} \\
[T^a,T^b] &= if^{abc}T^c & [t^a,t^b] &= f_{ab}{}^c t^c \\
\delta \phi_i &= i\theta^a(T^a)_{ij} \phi_j & \begin{split}
\delta \phi^i &= -\theta^a(t_a)^i{}_j \phi^j \\
&= -\theta^af_{aj}{}^i \phi^j \\
&= \theta^af_{ja}{}^i \phi^j
\end{split} \\
A_\mu &= A_\mu{}^a T^a & A_\mu &= A_\mu{}^a t_a \\
A_\mu &\rightarrow U(x) A_\mu U(x)^{-1} -
\frac{i}{g} [\partial_\mu U(x)] U(x)^{-1} & A_\mu &\rightarrow U(x) A_\mu U(x)^{-1} -
\frac{1}{g} [\partial_\mu U(x)] U(x)^{-1}
\end{align*}
以下是两个相关问题
答案1
aligned与选项一起使用[t]?
这就是你所追求的吗?
\documentclass{extarticle}
\usepackage{amsmath}
\begin{document}
\begin{align*}
U(x) &= e^{i\theta^a(x)T^a} & U(x) &= e^{-\theta^a(x)(t_a)^i{}_j} \\
[T^a,T^b] &= if^{abc}T^c & [t^a,t^b] &= f_{ab}{}^c t^c \\
\delta \phi_i &= i\theta^a(T^a)_{ij} \phi_j &
\delta \phi^i &
\begin{aligned}[t]
&= -\theta^a(t_a)^i{}_j \phi^j \\
&= -\theta^af_{aj}{}^i \phi^j \\
&= \theta^af_{ja}{}^i \phi^j
\end{aligned} \\
A_\mu &= A_\mu{}^a T^a & A_\mu &= A_\mu{}^a t_a \\
A_\mu &\rightarrow U(x) A_\mu U(x)^{-1} -
\frac{i}{g} [\partial_\mu U(x)] U(x)^{-1} & A_\mu &\rightarrow U(x) A_\mu U(x)^{-1} -
\frac{1}{g} [\partial_\mu U(x)] U(x)^{-1}
\end{align*}
\end{document}
答案2
- 你可以只使用
align*环境来写你的方程式 - 方程式比文本宽度宽,因此它从右文本边框溢出:
(红线表示页面布局)
\documentclass{extarticle}
\usepackage{amsmath}
%---------------- show page layout. don't use in a real document!
\usepackage{showframe}
\renewcommand\ShowFrameLinethickness{0.15pt}
\renewcommand*\ShowFrameColor{\color{red}}
%---------------------------------------------------------------%
\begin{document}
\begin{align*}
U(x)
& = e^{i\theta^a(x)T^a} & U(x) & = e^{-\theta^a(x)(t_a)^i{}_j} \\
[T^a,T^b]
& = if^{abc}T^c & [t^a,t^b] & = f_{ab}{}^c t^c \\
\delta\phi_i
& = i\theta^a(T^a)_{ij}\phi_j &
\delta \phi^i & = -\theta^a(t_a)^i{}_j \phi^j \\
&& & = -\theta^af_{aj}{}^i \phi^j \\
&& & = \theta^af_{ja}{}^i \phi^j \\
A_\mu
& = A_\mu{}^a T^a &
A_\mu &= A_\mu{}^a t_a \\
A_\mu
& \rightarrow U(x) A_\mu U(x)^{-1} - \frac{i}{g} [\partial_\mu U(x)] U(x)^{-1} &
A_\mu & \rightarrow U(x) A_\mu U(x)^{-1}
- \frac{1}{g} [\partial_\mu U(x)] U(x)^{-1}
\end{align*}
\end{document}
- 您可以通过两种方式解决这个问题,例如:
- 例如使用“几何包”来扩大文本区域
- 打破每列中的最后一个等式
\documentclass{extarticle}
\usepackage{amsmath}
%---------------- show page layout. don't use in a real document!
\usepackage{showframe}
\renewcommand\ShowFrameLinethickness{0.15pt}
\renewcommand*\ShowFrameColor{\color{red}}
%---------------------------------------------------------------%
\begin{document}
\begin{align*}
U(x)
& = e^{i\theta^a(x)T^a} & U(x) & = e^{-\theta^a(x)(t_a)^i{}_j} \\
[T^a,T^b]
& = if^{abc}T^c & [t^a,t^b] & = f_{ab}{}^c t^c \\
\delta\phi_i
& = i\theta^a(T^a)_{ij}\phi_j &
\delta \phi^i & = -\theta^a(t_a)^i{}_j \phi^j
= -\theta^af_{aj}{}^i \phi^j \\
&& & = \theta^af_{ja}{}^i \phi^j \\
A_\mu
& = A_\mu{}^a T^a &
A_\mu &= A_\mu{}^a t_a \\
A_\mu
& \rightarrow U(x) A_\mu U(x)^{-1} &
A_\mu & \rightarrow U(x) A_\mu U(x)^{-1} \\
&\qquad - \frac{i}{g} [\partial_\mu U(x)] U(x)^{-1} &
&\qquad - \frac{1}{g} [\partial_\mu U(x)] U(x)^{-1}
\end{align*}
\end{document}