原子物质波介导的量子发射器的超辐射和亚辐射动力学

IF 17.6 1区 物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY
Youngshin Kim, Alfonso Lanuza, Dominik Schneble
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引用次数: 0

摘要

自发辐射衰变的合作修正是量子光学中多发射极效应的典范。迄今为止,其实验实现依赖于由快速逃逸光子介导的相互作用,而这些光子在发射器动力学中并不发挥积极作用。在这里,我们利用一维光学晶格几何中的超冷原子平台,探索通过辐射缓慢原子物质波衰变的合成量子发射器的合作非马尔可夫动力学。通过制备和操纵承载弱和强相互作用多体激发相的发射体阵列,我们展示了定向集体发射,并研究了迟滞与超辐射和亚辐射动力学之间的相互作用。此外,我们还直接观察到发射体之间自发建立的相干性。我们在集体辐射动力学方面的研究成果确立了超冷物质波作为研究空间扩展和有序系统中多体量子光学的多功能工具的地位。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Super- and subradiant dynamics of quantum emitters mediated by atomic matter waves

Super- and subradiant dynamics of quantum emitters mediated by atomic matter waves

The cooperative modification of spontaneous radiative decay exemplifies a many-emitter effect in quantum optics. So far, its experimental realizations have relied on interactions mediated by rapidly escaping photons, which do not play an active role in the emitter dynamics. Here we use a platform of ultracold atoms in a one-dimensional optical lattice geometry to explore cooperative non-Markovian dynamics of synthetic quantum emitters that decay by radiating slow atomic matter waves. By preparing and manipulating arrays of emitters hosting weakly and strongly interacting many-body phases of excitations, we demonstrate directional collective emission and study the interplay between retardation and super- and subradiant dynamics. Moreover, we directly observe the spontaneous buildup of coherence among emitters. Our results on collective radiative dynamics establish ultracold matter waves as a versatile tool for studying many-body quantum optics in spatially extended and ordered systems.

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来源期刊
Nature Physics
Nature Physics 物理-物理:综合
CiteScore
30.40
自引率
2.00%
发文量
349
审稿时长
4-8 weeks
期刊介绍: Nature Physics is dedicated to publishing top-tier original research in physics with a fair and rigorous review process. It provides high visibility and access to a broad readership, maintaining high standards in copy editing and production, ensuring rapid publication, and maintaining independence from academic societies and other vested interests. The journal presents two main research paper formats: Letters and Articles. Alongside primary research, Nature Physics serves as a central source for valuable information within the physics community through Review Articles, News & Views, Research Highlights covering crucial developments across the physics literature, Commentaries, Book Reviews, and Correspondence.
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