We propose a scheme to trap and filter electrons, valley dependently, on a scale beyond the diffraction limit, in a gapped Dirac system using a circularly polarized light beam and a microscale metallic resonator. The main mechanism allowing the selection is the valley dependent break of the time reversal symmetry. Indeed in one valley, the light partially closes the already existing gap while it opens it in the other one. This difference in the band structure close to the Dirac points, induces a change in the dynamics of the electrons, leading to a valley router behaviour of the system.
@article{arxiv.1807.01228,
title = {Optical valleytronics in gapped graphene},
author = {Kevin Dini and Ivan V. Iorsh and Andrey Bogdanov and Ivan A. Shelykh},
journal= {arXiv preprint arXiv:1807.01228},
year = {2019}
}