Dicke superradiance requires interactions beyond nearest neighbors
Photon-mediated interactions within an excited ensemble of emitters can result in Dicke superradiance, where the emission rate is greatly enhanced, manifesting as a high-intensity burst at short times. The superradiant burst is most commonly observed in systems with long-range interactions between t...
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sg-ntu-dr.10356-1693122023-07-17T15:34:48Z Dicke superradiance requires interactions beyond nearest neighbors Mok, Wai-Keong Asenjo-Garcia, Ana Sum, Tze Chien Kwek, Leong Chuan School of Physical and Mathematical Sciences National Institute of Education MajuLab, CNRS-UNS-NUS-NTU International Joint Research Unit, Singapore UMI 3654 Science::Physics Emissions Rates Maximum Emissions Photon-mediated interactions within an excited ensemble of emitters can result in Dicke superradiance, where the emission rate is greatly enhanced, manifesting as a high-intensity burst at short times. The superradiant burst is most commonly observed in systems with long-range interactions between the emitters, although the minimal interaction range remains unknown. Here, we put forward a new theoretical method to bound the maximum emission rate by upper bounding the spectral radius of an auxiliary Hamiltonian. We harness this tool to prove that for an arbitrary ordered array with only nearest-neighbor interactions in all dimensions, a superradiant burst is not physically observable. We show that Dicke superradiance requires minimally the inclusion of next-nearest-neighbor interactions. For exponentially decaying interactions, the critical coupling is found to be asymptotically independent of the number of emitters in all dimensions, thereby defining the threshold interaction range where the collective enhancement balances out the decoherence effects. Our findings provide key physical insights to the understanding of collective decay in many-body quantum systems, and the designing of superradiant emission in physical systems for applications such as energy harvesting and quantum sensing. National Research Foundation (NRF) Published version This research is supported by the National Research Foundation (NRF), Singapore, under its Competitive Research Program (CRP) (NRF-CRP25-2020-0004). A. A.-G. gratefully acknowledges support from the Air Force Office of Scientific Research through their Young Investigator Prize (Grant No. 21RT0751), the National Science Foundation through their CAREER Award (No. 2047380), the A. P. Sloan Foundation, and the David and Lucile Packard Foundation. 2023-07-12T02:52:09Z 2023-07-12T02:52:09Z 2023 Journal Article Mok, W., Asenjo-Garcia, A., Sum, T. C. & Kwek, L. C. (2023). Dicke superradiance requires interactions beyond nearest neighbors. Physical Review Letters, 130(21), 213605-. https://dx.doi.org/10.1103/PhysRevLett.130.213605 0031-9007 https://hdl.handle.net/10356/169312 10.1103/PhysRevLett.130.213605 37295080 2-s2.0-85161531345 21 130 213605 en NRF-CRP25-2020-0004 Physical Review Letters © 2023 American Physical Society. All rights reserved. This paper was published in Physical Review Letters and is made available with permission of American Physical Society. application/pdf |
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Science::Physics Emissions Rates Maximum Emissions Mok, Wai-Keong Asenjo-Garcia, Ana Sum, Tze Chien Kwek, Leong Chuan Dicke superradiance requires interactions beyond nearest neighbors |
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Photon-mediated interactions within an excited ensemble of emitters can result in Dicke superradiance, where the emission rate is greatly enhanced, manifesting as a high-intensity burst at short times. The superradiant burst is most commonly observed in systems with long-range interactions between the emitters, although the minimal interaction range remains unknown. Here, we put forward a new theoretical method to bound the maximum emission rate by upper bounding the spectral radius of an auxiliary Hamiltonian. We harness this tool to prove that for an arbitrary ordered array with only nearest-neighbor interactions in all dimensions, a superradiant burst is not physically observable. We show that Dicke superradiance requires minimally the inclusion of next-nearest-neighbor interactions. For exponentially decaying interactions, the critical coupling is found to be asymptotically independent of the number of emitters in all dimensions, thereby defining the threshold interaction range where the collective enhancement balances out the decoherence effects. Our findings provide key physical insights to the understanding of collective decay in many-body quantum systems, and the designing of superradiant emission in physical systems for applications such as energy harvesting and quantum sensing. |
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School of Physical and Mathematical Sciences |
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School of Physical and Mathematical Sciences Mok, Wai-Keong Asenjo-Garcia, Ana Sum, Tze Chien Kwek, Leong Chuan |
| format |
Article |
| author |
Mok, Wai-Keong Asenjo-Garcia, Ana Sum, Tze Chien Kwek, Leong Chuan |
| author_sort |
Mok, Wai-Keong |
| title |
Dicke superradiance requires interactions beyond nearest neighbors |
| title_short |
Dicke superradiance requires interactions beyond nearest neighbors |
| title_full |
Dicke superradiance requires interactions beyond nearest neighbors |
| title_fullStr |
Dicke superradiance requires interactions beyond nearest neighbors |
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Dicke superradiance requires interactions beyond nearest neighbors |
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dicke superradiance requires interactions beyond nearest neighbors |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/169312 |
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1773551421562552320 |