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Main Authors: Li, Jia-Qi, Wang, Xin
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2505.03640
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author Li, Jia-Qi
Wang, Xin
author_facet Li, Jia-Qi
Wang, Xin
contents Light-matter interactions are traditionally governed by two fundamental paradigms: spontaneous and stimulated radiation. However, in nonlinear multi-photon regimes, these classical mechanisms break down, revealing new possibilities for light emission. Here, we report the discovery of a novel mechanism, termed triggered emission, in which an emitter, largely detuned from single-photon states, is triggered by the quantum state of the environment to emit a highly correlated photon pair, doublon. By identifying two critical conditions, energy matching and wavefunction overlap, we demonstrate that the dynamics of the emitter are profoundly shaped by the environment's quantum state. Using this framework, we construct a novel superposition state comprising a localized single-photon state and a propagating, strongly correlated two-photon wavepacket. Furthermore, we realize the multi-photon unidirectional emission by modulating the emitter and the photon state. Our findings not only deepen the understanding of nonlinear emitter dynamics but also provide a versatile platform for quantum computing and quantum information processing.
format Preprint
id arxiv_https___arxiv_org_abs_2505_03640
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Environmental Quantum States Trigger Emission in Nonlinear Photonics
Li, Jia-Qi
Wang, Xin
Quantum Physics
Light-matter interactions are traditionally governed by two fundamental paradigms: spontaneous and stimulated radiation. However, in nonlinear multi-photon regimes, these classical mechanisms break down, revealing new possibilities for light emission. Here, we report the discovery of a novel mechanism, termed triggered emission, in which an emitter, largely detuned from single-photon states, is triggered by the quantum state of the environment to emit a highly correlated photon pair, doublon. By identifying two critical conditions, energy matching and wavefunction overlap, we demonstrate that the dynamics of the emitter are profoundly shaped by the environment's quantum state. Using this framework, we construct a novel superposition state comprising a localized single-photon state and a propagating, strongly correlated two-photon wavepacket. Furthermore, we realize the multi-photon unidirectional emission by modulating the emitter and the photon state. Our findings not only deepen the understanding of nonlinear emitter dynamics but also provide a versatile platform for quantum computing and quantum information processing.
title Environmental Quantum States Trigger Emission in Nonlinear Photonics
topic Quantum Physics
url https://arxiv.org/abs/2505.03640