Cavity QED with an ultracold ensemble on a chip: Prospects for strong magneticcoupling at finite temperatures

Kathrin Henschel; Johannes Majer; Jorg Schmiedmayer; Helmut Ritsch

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Cavity QED with an ultracold ensemble on a chip: Prospects for strong magneticcoupling at finite temperatures

机译：具有超冷集成芯片的Cavity QED：在有限温度下实现强磁耦合的前景

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We study the nonlinear dynamics of an ensemble of cold trapped atoms with a hyperfine transition magnetically coupled to a resonant microwave cavity mode. Despite the minute single-atom coupling, one obtains strong coupling between collective hyperfine qubits and microwave photons, enabling coherent transfer of an excitation between the long-lived atomic quoit state and the mode. Evidence of strong coupling can be obtained from the cavity transmission spectrum even at finite thermal photon number. The system makes it possible to study further prominent collective phenomena such as superradiant decay of an inverted ensemble or the building of a narrowband stripline micromaser locked to an atomic hyperfine transition.

机译：我们研究了具有超精细跃迁的冷俘获原子集合的非线性动力学，该超精细跃迁与电磁微波谐振腔模式磁耦合。尽管有微小的单原子耦合，但仍能在集体超精细量子位和微波光子之间获得强耦合，从而使激发能在长寿命的原子态和态之间进行相干传递。即使在有限的热光子数下，也可以从腔传输光谱中获得强耦合的证据。该系统使研究进一步突出的集体现象成为可能，例如反向集合体的超辐射衰减或锁定在原子超精细跃迁上的窄带带状微物质的构建。

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《Physical Review, A. Atomic, molecular, and optical physics》 |2010年第3期|共16页
作者
Kathrin Henschel; Johannes Majer; Jorg Schmiedmayer; Helmut Ritsch;
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正文语种 eng
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nonlinear dynamics; microwave cavity; finite thermal;

机译：非线性动力学微波腔有限热;
入库时间 2022-08-19 14:07:04

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1. Cavity QED with an ultracold ensemble on a chip: Prospects for strong magneticcoupling at finite temperatures [J] . Kathrin Henschel, Johannes Majer, Jorg Schmiedmayer, Physical Review, A. Atomic, molecular, and optical physics . 2010,第3期

机译：具有超冷集成芯片的Cavity QED：在有限温度下实现强磁耦合的前景
2. Integrating cavity quantum electrodynamics and ultracold-atom chips with on-chip dielectric mirrors and temperature stabilization [J] . T.P. PTJRDY, rnD.M. STAMPER-KURN Applied physics . 2008,第3a4期

机译：将腔量子电动力学和超冷原子芯片与片上介电镜和温度稳定功能集成在一起
3. Protecting a spin ensemble against decoherence in the strong-coupling regime of cavity QED [J] . S. Putz, D. O. Krimer, R. Amsüss, Nature physics . 2014,第10期

机译：在腔QED的强耦合方案中保护自旋系谱免于退相干
4. Cavity QED with ultracold gases: Probing quantum phases in optical lattices by light scattering [C] . Igor B. Mekhov, Christoph Maschler, Helmut Ritsch European Conference on Lasers Electro-Optics and the International Quantum Electronics Conference . 2007

机译：具有Ultracold气体的腔QED：通过光散射探测光学晶格中的量子相
5. Cavity QED with ultracold atoms on an atom chip. [D] . Purdy, Thomas Patrick. 2009

机译：在原子芯片上具有超冷原子的腔QED。
6. From the CoverInaugural Article: Atoms and molecules in cavities from weak to strong coupling in quantum-electrodynamics (QED) chemistry [O] . Johannes Flick, Michael Ruggenthaler, Heiko Appel, 2017

机译：来自CoverInaugural的文章：腔中的原子和分子从量子电动力学（QED）化学中的弱耦合到强耦合
7. Cavity QED with an ultracold ensemble on a chip: prospects for strong magnetic coupling at finite temperatures [O] . Henschel, Kathrin, Majer, Johannes, Schmiedmayer, Jörg, 2010

机译：腔体QED在芯片上具有超级合奏：前景强劲有限温度下的磁耦合
8. Operation and On-Chip Integration of Cavity-QED-Based Detectors for Single Atoms and Molecules [R] . Stamper-Kurn, D. M. 2010

机译：基于腔QED的单原子和分子探测器的操作和片上集成

Cavity QED with an ultracold ensemble on a chip: Prospects for strong magneticcoupling at finite temperatures

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