English

Light-Induced Valleytronics in Pristine Graphene

Mesoscale and Nanoscale Physics 2021-03-19 v2 Materials Science Strongly Correlated Electrons Chemical Physics Optics

Abstract

Electrons in two-dimensional hexagonal materials have valley degree of freedom, which can be used to encode and process quantum information. The valley-selective excitations, governed by the circularly polarised light resonant with the material's band-gap, continues to be the foundation of valleytronics. It is often assumed that achieving valley selective excitation in pristine graphene with all-optical means is not possible due to the inversion symmetry of the system. Here we demonstrate that both valley-selective excitation and valley-selective high-harmonic generation can be achieved in pristine graphene by using the combination of two counter-rotating circularly polarized fields, the fundamental and its second harmonic. Controlling the relative phase between the two colours allows us to select the valleys where the electron-hole pairs and higher-order harmonics are generated. We also describe an all-optical method for measuring valley polarization in graphene with a weak probe pulse. This work offers a robust recipe to write and read valley-selective electron excitations in materials with zero bandgap and zero Berry curvature.

Keywords

Cite

@article{arxiv.2011.04973,
  title  = {Light-Induced Valleytronics in Pristine Graphene},
  author = {M. S. Mrudul and Álvaro Jiménez-Galán and Misha Ivanov and Gopal Dixit},
  journal= {arXiv preprint arXiv:2011.04973},
  year   = {2021}
}

Comments

16 pages, 4 figures

R2 v1 2026-06-23T20:02:26.398Z