Discussion Forum

Posted: 6 years ago 11 gen 2019, 11:13 GMT-5

Updated: 6 years ago 11 gen 2019, 11:24 GMT-5

I have the RF module, which is similar to the Wave Optics module. In principle, the software will allow you to specify (via entering equations, as you already noted) a full vector E field as a function of x,y,z under the "initial values" setting for the domain of interest. However, any *arbitrary* configuration of fields, or of field directions (aka, polarization) may not satisfy Maxwell's equations. So... you might want to re-think your plans here, since presumably you are interested in modeling real-world physics. In most cases, that means imposing user-specified constraints only upon fields, currents, and charges at locations that are limited to what you actually *know* to be true in the problem of interest to you. You can then allow Comsol Multiphysics to *compute* the fields everywhere else. I should add: Check to see if your module supports the wave-scattering formalism. This lets you impose a (initially unperturbed) plane-wave throughout the volume. A common application is radar cross-section work, but that isn't the only application. Also, this isn't truly an "arbitrary" field specification in terms of x,y,z, but even so, you can specify a *plane wave* (in a fixed direction that you also specify) with "arbitrary polarization." So *maybe* that is close enough to what you are looking for? Good luck.