http://www.comsol.nl/community/forums/general/thread/3668/ Most recent forum messages Mon, 02 Aug 2010 16:26:49 +0000 http://www.comsol.nl/shared/images/logos/comsol_logo.gif http://www.comsol.nl/community/forums/general/thread/3668/ http://www.comsol.nl/community/forums/general/thread/3668/#p21073 Hi Alex,<br /> <br /> I am having exactly the same problem as you. I was wondering if you were able find a solution meanwhile. Thanks! <br /> <br /> -Filiz Mon, 02 Aug 2010 16:26:49 +0000 3668.1280766409.21073 http://www.comsol.nl/community/forums/general/thread/3668/#p9539 Dear Community,<br /> <br /> In RFmodule, 3D harmonic propagation analysis:<br /> <br /> Let's say I have a 2D periodic strucure, e.g. a 2D-grating (in the xy-plane) . <br /> Incoming light is a plane wave, polarisation: x-direction , travelling along z-direction, i.e. normal incidence onto the structure (no in-plane k-vektor component).<br /> <br /> As boundary condition I'd set periodic conditions in x-, and in y-direction.<br /> <br /> Now, in case my elementary cell exhibits symmetries, e.g. elementary cell just consists of a centered cube, I'd like to introduce a perfect-magnetic conductor (xz)plane and a perfect-electric conductor (yz)plane mirroring those symmetries. <br /> <br /> To take advantage of those symmetries I have to deactivate the corresponding subdomains.<br /> <br /> But then I experience, that I cannot use the periodic conditions anymore, since parts of the periodic-condition boundary-pairs now lie on deactivated subdomains!<br /> <br /> Anyone knows how to implement that kind of problem? Or is it just, one cannot exploit symmetries when using periodic boundary conditions?<br /> <br /> Regards &amp; thanks in advance<br /> <br /> Alex Mon, 08 Mar 2010 15:54:45 +0000 3668.1268063685.9539