Physical Review Research (Sep 2024)

Strong dipole-dipole interactions via enhanced light-matter coupling in composite nanofiber waveguides

  • Kritika Jain,
  • Lewis Ruks,
  • Fam le Kien,
  • Thomas Busch

DOI
https://doi.org/10.1103/PhysRevResearch.6.033311
Journal volume & issue
Vol. 6, no. 3
p. 033311

Abstract

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We study the interaction of emitters with a composite waveguide formed from two parallel optical nanofibers in regimes of experimental importance for atomic gases or solid-state emitters. Using the exact dyadic Green's function we comprehensively investigate the coupling efficiency and the fiber-induced Lamb shift accounting for variations in emitter positions and fiber configurations. This reveals coupling efficiencies and Purcell factors that are enhanced considerably beyond those using a single fiber waveguide, and robustness in the figures of merit. We finally investigate resonant dipole-dipole interactions and the generation of entanglement between two emitters mediated through the composite waveguide under excitation. We show that the concurrence can be enhanced for two fiber systems, such that entanglement may be present even in cases where it is zero for a single fiber. All-fiber systems are simple in construction and benefit from a wealth of existing telecommunications technologies, while enjoying strong couplings to emitters and offering interesting light-matter functionalities specific to slot waveguides.