Hello,
I need help please. I have the following optimization problem defined as
\begin{equation}
\begin{aligned}
& (\mathbf{P1}) \quad \max_{\mathbf{z}} \quad \left| d -\sum_{n=1}^{N} \frac{c_n}{f_n + z_n} \right|^2 \\
& \text{subject to} \quad \sum_{n=1}^{N} \frac{|a_n|^2 \text{Re}(z_n)}{|f_n...
I see, thank you very much for your quick reply.
The thing is that, later on, it is said that for TE mode: V''=0, I''=0 and for the TM mode, V'=0, I'=0. Why is that ?
Thank you again !
Hello,
Thank you very much for the help.
I'm struggling to prove another two equations which follows the previous proof.
In the previous post it was proven that
where
The above terms are expressed in terms of the 2D dyadic (2 by 2) matrices.
The eigenvectors and the corresponding...
Hello everyone,
I am reading some book titled: Periodic Structures: Mode-Matching Approach and Applications in Electromagnetic Engineering.
In Chapter 2, there is an equation as follows:
where . Here the electric field is along the transverse x − y plane like the propagation vector kt.
Now it...