Login / Signup

Single Photon Emitters with Polarization and Orbital Angular Momentum Locking in Monolayer Semiconductors.

Di ZhangDawei ZhaiSha DengWang YaoQizhong Zhu
Published in: Nano letters (2023)
Excitons in monolayer transition metal dichalcogenide are endowed with intrinsic valley-orbit coupling between their center-of-mass motion and valley pseudospin. When trapped in a confinement potential, e.g., generated by strain field, we find that intralayer excitons are valley and orbital angular momentum (OAM) entangled. By tuning the trap profile and external magnetic field, one can engineer the exciton states at the ground state and realize a series of valley-OAM entangled states. We further show that the OAM of excitons can be transferred to emitted photons, and these novel exciton states can naturally serve as polarization-OAM locked single photon emitters, which under certain circumstance become polarization-OAM entangled, highly tunable by strain trap and magnetic field. Our proposal demonstrates a novel scheme to generate polarization-OAM locked/entangled photons at the nanoscale with a high degree of integrability and tunability, pointing to exciting opportunities for quantum information applications.
Keyphrases
  • transition metal
  • molecular dynamics
  • atomic force microscopy
  • risk assessment
  • health information
  • high speed