1. Non-radiative configurations of a few quantum emitters ensembles: Evolutionary optimization approach.
- Author
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Volkov, Ilya, Mitsai, Stanislav, Zhogolev, Stepan, Kornovan, Danil, Sheremet, Alexandra, Savelev, Roman, and Petrov, Mihail
- Subjects
- *
QUANTUM optics , *QUANTUM states , *INTERATOMIC distances , *DIFFERENTIAL evolution , *BOUND states - Abstract
Suppressing the spontaneous emission in quantum emitters ensembles (atoms) is one of the topical problems in quantum optics and quantum technology. While many approaches are based on utilizing the subradiance effect in ordered quantum emitters arrays, the ensemble configurations providing the minimal spontaneous emission rate are yet unknown. In this work, we employ the differential evolution algorithm to identify the optimal configurations of a few atomic ensembles that support quantum states with maximal radiative lifetime. We demonstrate that atoms tend to assemble mostly in quasi-regular structures with specific geometry, which strongly depends on the minimally allowed interatomic distance r min . While the discovered specific non-radiative realizations of small ensembles cannot be immediately predicted, there is particular correspondence to the non-radiative states in the atomic lattices. In particular, we have found that states inheriting their properties either from the bound states in the continuum or band edge states of infinite lattices dominate across a wide range of r min values. Additionally, we show that for small interatomic distances, the linear arrays with modulated spacing have the smallest radiative losses exponentially decreasing as the size of the ensemble increases. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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