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\end{bmatrix}$$  Where $F(z;z_0)$ is the forward coupling matrix and it relates field amplitudes at an intial value of $z_0$ to those at z. For the most simple case when power is launched into only mode a at $z=0$ , giving $\widetilde{B}(0)=0$. With $z=0$   \[\widetilde{A}(z)=\widetilde{A}(0)\left( cos \beta_c z -\frac{i \delta}{\beta_c} sin \beta_c z \right) e^{i \delta z} \]  \[\widetilde{B}(z)=\widetilde{B}(0)\left(\frac{i \kappa_{ba}}{\beta_c} sin \beta_c z \right) e^{-i \delta z} \] where \beta_c=\left( \kappa_{ab}\kappa_{ba}+\delta^2\right)^2  Then looking at the power of the two modes   $\frac{P_a(z)}{P_a(0)}=|\frac{\widetilde{A}(z)}{\widetilde{A}(0)}|^2$