A Thermoelectric Heat Engine with Ultracold Atoms

Jean-Philippe Brantut; Charles Grenier; Jakob Meineke; David Stadler; Sebastian Krinner; Corinna Kollath; Tilman Esslinger; Antoine Georges

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A Thermoelectric Heat Engine with Ultracold Atoms

机译：具有超冷原子的热电热机

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Thermoelectric effects, such as the generation of a particle current by a temperature gradient, have their origin in a reversible coupling between heat and particle flows. These effects are fundamental probes for materials and have applications to cooling and power generation. Here, we demonstrate thermoelectricity in a fermionic cold atoms channel in the ballistic and diffusive regimes, connected to two reservoirs. We show that the magnitude of the effect and the efficiency of energy conversion can be optimized by controlling the geometry or disorder strength. Our observations are in quantitative agreement with a theoretical model based on the Landauer-Biittiker formalism. Our device provides a controllable model system to explore mechanisms of energy conversion and realizes a cold atom-based heat engine.

机译：热电效应（例如通过温度梯度产生粒子电流）的起源是热量和粒子流之间的可逆耦合。这些影响是材料的基础探究，可应用于冷却和发电。在这里，我们证明了在弹道和扩散体制下，与两个储层相连的费米离子冷原子通道中的热电。我们表明，可以通过控制几何形状或无序强度来优化效果的大小和能量转换的效率。我们的观察与基于Landauer-Biittiker形式主义的理论模型在数量上相符。我们的设备提供了可控制的模型系统，以探索能量转换的机理，并实现了基于冷原子的热机。

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来源
《Science》 |2013年第6159期|713-715|共3页
作者
Jean-Philippe Brantut; Charles Grenier; Jakob Meineke; David Stadler; Sebastian Krinner; Corinna Kollath; Tilman Esslinger; Antoine Georges;
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作者单位

Institute for Quantum Electronics, ETH Zurich, CH-8093 Zurich, Switzerland;

Centre de Physique The'orique, Ecole Polytechnique, CNRS, 91128 Palaiseau cedex, France;

Institute for Quantum Electronics, ETH Zurich, CH-8093 Zurich, Switzerland,Philips Technologie GmbH, Rontgenstrasse 24-26, D-22335 Hamburg;

Institute for Quantum Electronics, ETH Zurich, CH-8093 Zurich, Switzerland;

Institute for Quantum Electronics, ETH Zurich, CH-8093 Zurich, Switzerland;

HISKP, Universitat Bonn, Nussallee 14-16, D-53115 Bonn, Germany;

Institute for Quantum Electronics, ETH Zurich, CH-8093 Zurich, Switzerland;

Centre de Physique The'orique, Ecole Polytechnique, CNRS, 91128 Palaiseau cedex, France,College de France, 11 place Marcelin Berthelot, 75005 Paris, France,DPMC-MaNEP, Universite de Geneve, CH-1211 Geneve, Switzerland;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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1. Floquet Engineering of Correlated Tunneling in the Bose-Hubbard Model with Ultracold Atoms [J] . Meinert F., Mark M. J., Lauber K., Physical review letters . 2016,第20期

机译：Bose-Hubbard模型中具有超冷原子的相关隧穿的浮球工程
2. Engineering extended Hubbard models with Zeeman excitations of ultracold Dy atoms [J] . Vargas-Hernandez R. A., Krems R. V. Journal of Physics, B. Atomic, Molecular and Optical Physics: An Institute of Physics Journal . 2016,第23期

机译：具有Zeeman激励的Ultrachold Dy原子的工程扩展哈伯德车型
3. Quantum state engineering of spin-orbit-coupled ultracold atoms in a Morse potential [J] . Ban Yue, Chen Xi, Muga J. G., Physical Review, A. Atomic, molecular, and optical physics . 2015,第2aPta1期

机译：Morse势中自旋轨道耦合的超冷原子的量子态工程
4. Arbitrary dipole potentials for ultracold atoms: Free-space atom chips [C] . Lee J. Quantum Electronics Conference amp; Lasers and Electro-Optics (CLEO/IQEC/PACIFIC RIM), 2011 . 2011

机译：超冷原子的任意偶极电势：自由空间原子芯片
5. Thermoelectric conversion of waste heat to electricity in an IC engine powered vehicle: An engine modeling approach. [D] . Hartsig, Andrew T. 2008

机译：IC发动机驱动的车辆中的废热热电转换：一种发动机建模方法。
6. Probing topology by heating: Quantized circular dichroism in ultracold atoms [O] . Duc Thanh Tran, Alexandre Dauphin, Adolfo G. Grushin, 2017

机译：通过加热探测拓扑：超冷原子中的定量圆二色性
7. A thermoelectric heat engine with ultracold atoms [O] . Brantut, Jean-Philippe, Grenier, Charles, Meineke, Jakob, 2013

机译：具有超冷原子的热电热机

A Thermoelectric Heat Engine with Ultracold Atoms

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