Results in Physics (Oct 2023)

Robust light bullets in Rydberg gases with moiré lattice

  • Ze-Yang Li,
  • Jun-Hao Li,
  • Yuan Zhao,
  • Jin-Long Cui,
  • Jun-Rong He,
  • Guo-Long Ruan,
  • Boris A. Malomed,
  • Si-Liu Xu

Journal volume & issue
Vol. 53
p. 106990

Abstract

Read online

Rydberg electromagnetically-induced transparency has been widely studied as a medium supporting light propagation under the action of nonlocal nonlinearities. Recently, optical potentials based on moiré lattices (MLs) were introduced for exploring unconventional physical states. Here, we predict a possibility of creating fully three-dimensional (3D) light bullets (LBs) in cold Rydberg gases under the action of ML potentials. The nonlinearity includes local self-defocusing and long-range focusing terms, the latter one induced by the Rydberg-Rydberg interaction. We produce zero-vorticity LB families of the fundamental, dipole, and quadrupole types, as well as vortex LBs. They all are gap solitons populating finite bandgaps of the underlying ML spectrum. Stable subfamilies are identified utilizing the combination of the anti-Vakhitov-Kolokolov criterion, computation of eigenvalues for small perturbations, and direct simulations.

Keywords