I am modelling a microwave structure using circuit theory, but I have a small confusion regarding characteristic admittances (I am assuming rotational symmetry and TM modes so I only have E_z, E_r and H_phi).

Let's say that I have a cylinder and a wave that propagates in the z-direction (i.e. perpendicular to a planar face of the cylinder). Moreover, the cylinder has two ports: an axial one (located at a planar face) and a radial one (located at the outer radius). I need to calculate the characteristic admittance (both, incident and reflected) at both ports, so I have to make an analysis port by port (short-circuiting the remaining ones). In the axial case (i.e. port 1) it is easy because each EM mode inside the structure depends only on one component of the incident fields (i.e. of the wave) and because the fields tangential to the port are also tangential to the propagating wave (i.e. the tangential fields are E_r and H_phi). However, in the radial case (i.e. port 2), each EM mode is coupled to several field components, and the fields tangential to the wave are E_r and H_phi, but the ones tangential to the port are E_z and H_phi.

Thus, I am not sure about which components I should be using for calculating the characteristic admittance. Any help, pointers or info is appreciated.

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