Time-Reversal Symmetry Bounds on the Electromagnetic Response of Asymmetric Structures

Phys Rev Lett. 2017 Apr 14;118(15):154302. doi: 10.1103/PhysRevLett.118.154302. Epub 2017 Apr 14.

Abstract

Asymmetric structures support different field distributions and electromagnetic responses when excited from different directions. Here we show that time-reversal symmetry imposes fundamental constraints on their overall response, beyond those dictated by reciprocity. For two-port devices, the asymmetry in field distribution for opposite excitations is shown to be fundamentally bounded by the reflection at the ports, and the fields are identical everywhere in space in the case of full transmission. In multiport and open scenarios, these bounds have implications on radiation and scattering at different ports and towards different directions. Beyond their theoretical significance, these results provide relevant insights into the operation of nonlinear isolators, metasurfaces, and other nanophotonic devices.