A deterministic approach for integrating an emitter in a nanocavity with subwavelength light confinement

• URL: http://arxiv.org/abs/2512.19372v1
• Date: Mon, 22 Dec 2025 13:15:44 GMT
• Title: A deterministic approach for integrating an emitter in a nanocavity with subwavelength light confinement
• Authors: Valdemar Bille-Lauridsen, Rasmus Ellebæk Christiansen, Yi Yu, Jesper Mørk,
• Abstract summary: We introduce a novel light-matter interface that integrates a nanoscale buried heterostructure emitter into a bowtie cavity.<n>We show that an explicit treatment of the emitter's spatial extent is required, and that a confinement-factor approximation more accurately predicts the coupling.
• Score: 7.607274819488089
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: We introduce a novel light-matter interface that integrates a nanoscale buried heterostructure emitter into a dielectric bowtie cavity, co-localising the optical hotspot and the electronic wavefunction. This platform enables strong light-matter interaction through deep subwavelength confinement while remaining compatible with scalable fabrication. We show that in this regime an explicit treatment of the emitter's spatial extent is required, and that a confinement-factor approximation more accurately predicts the coupling, revealing design rules inaccessible to dipole-based metrics. For an InP/InGaAsP system, we predict coupling strengths of 0.4-0.7 meV for gap sizes of 50-10 nm, establishing the buried heterostructure-bowtie architecture as a practical route to deterministic strong coupling in solid-state nanophotonics.

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