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Trapped Ion Quantum Computing
Quantum Simulation
Electronic superradiance mediated by nuclear dynamics
arXiv
Authors: Xuecheng Tao, John P. Philbin, Prineha Narang
Year
2023
Paper ID
54213
Status
Preprint
Abstract Read
~2 min
Abstract Words
122
Citations
N/A
Abstract
Superradiance, in which the collective behavior of emitters can generate enhanced radiative decay, was first predicted by a model, now known as the Dicke model, that contains a collection of two-level systems (the emitters) all interacting with the same photonic mode. In this article, we extend the original Dicke model to elucidate the influence of nuclear motion on superradiant emission. Our dynamical simulations of the combined electronic, nuclear, and photonic system reveal a new time scale attributed to the population leakage of the dark, subradiant states. Furthermore, this dark state emission pathway can be controlled by tuning the nuclear potential energy landscape. These findings impact how superradiant states and molecular degrees of freedom can be leveraged and utilized in quantum optical systems.
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- Superradiance, in which the collective behavior of emitters can generate enhanced radiative decay, was first predicted by a model, now known as the Dicke model, that contains a...
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