\documentclass{article}
\usepackage[margin=1in]{geometry}% Just for this example
\usepackage{amsmath}
 
\begin{document}
 
\begin{align}
 T_4 &= \langle \underline{k}\,.\,\underline{k}^{*^T} \rangle=
   \left\langle
   \begin{bmatrix}
     |k_1|^2 & k_1k_2^* & k_1k_3^* & k_1k_4^* \\
     k_2k_1^* & |k_2|^2 & k_2k_3^* & k_2k_4^* \\
     k_3k_1^* & k_3k_2^* & |k_3|^2 & k_3k_4^* \\
     k_4k_1^* & k_4k_2^* & k_4k_3^* & |k_4|^2
   \end{bmatrix}
   \right\rangle \\
 &= \frac{1}{2}
   \left[\begin{matrix}
     \langle|S_{XX}+S_{YY}|^2\rangle &
     \langle(S_{XX}+S_{YY})(S_{XX}-S_{YY})^*\rangle &\\
     \langle(S_{XX}-S_{YY})(S_{XX}+S_{YY})^*\rangle &
     \langle|S_{XX}-S_{YY}|^2\rangle & \cdots\cdots\\
     \langle(S_{XY}+S_{YX})(S_{XX}+S_{YY})^*\rangle&
     \langle(S_{XY}+S_{YX})(S_{XX}-S_{YY})^*\rangle & \cdots\cdots\\
     \langle j(S_{XY}-S_{YX})(S_{XX}+S_{YY})^*\rangle &
     \langle j(S_{XY}-S_{YX})(S_{XX}-S_{YY})^*\rangle &
   \end{matrix}\right. \nonumber \\
 & \phantom{{}= \frac{1}{2}}
   \left.\begin{matrix}
     & \langle(S_{XX}+S_{YY})(S_{XY}+S_{YX})^*\rangle
     & \langle -j(S_{XX}+S_{YY})(S_{XY}-S_{YX})^*\rangle\\
     \cdots\cdots& \langle(S_{XX}-S_{YY})(S_{XY}+S_{YX})^*\rangle
     & \langle -j(S_{XX}-S_{YY})(S_{XY}-S_{YX})^*\rangle\\
     \cdots\cdots& \langle|S_{XY}+S_{YX}|^2\rangle
     & \langle-j(S_{XY}+S_{YX})(S_{XY}-S_{YX})^*\rangle\\
     & \langle j(S_{XY}-S_{YX})(S_{XY}+S_{YX})^*\rangle
     & \langle|S_{XY}-S_{YX}|^2\rangle
   \end{matrix}\right]
\end{align}
 
\end{document}