Creation of an Effective Magnetic Field in Ultracold Atomic Gases Using Electromagnetically Induced Transparency

G. Juzeliunas; P. Ohberg

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Creation of an Effective Magnetic Field in Ultracold Atomic Gases Using Electromagnetically Induced Transparency

机译：使用电磁感应的透明度在超冷原子气体中创建有效磁场

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We consider the influence of the control and probe beams in the electromagnetically induced transparency configuration on the mechanical motion of ultracold atomic gases (atomic Bose-Einstein condensates or degenerate Fermi gases). We carry out a microscopic analysis of the interplay between radiation and matter and show that the two beams of light can provide an effective magnetic field acting on electrically neutral atoms in the case where the probe beam has an orbital angular momentum. As an example, we demonstrate how a Meissner-like effect can be created in an atomic Bose-Einstein condensate.

机译：我们考虑电磁感应的透明结构中控制光束和探测光束对超冷原子气体（原子玻色-爱因斯坦凝聚物或简并费米气体）的机械运动的影响。我们对辐射与物质之间的相互作用进行了微观分析，结果表明，在探测光束具有轨道角动量的情况下，两束光束可以提供作用于电中性原子的有效磁场。例如，我们演示了如何在原子玻色-爱因斯坦凝聚物中产生类似迈斯纳的效应。

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《Optics and Spectroscopy 》 |2005年第3期| 共5页
作者
G. Juzeliunas; P. Ohberg;
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正文语种 eng
中图分类光学 ;
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1. Creation of an Effective Magnetic Field in Ultracold Atomic Gases Using Electromagnetically Induced Transparency [J] . G. Juzeliunas, P. Ohberg Optics and Spectroscopy . 2005 ,第3期

机译：使用电磁感应的透明度在超冷原子气体中创建有效磁场
2. Atomic Interaction Effects on Electromagnetically Induced Transparency and Slow Light in Ultracold Bose Gas [J] . 胡正峰, 杜春光, 李代军, 中国物理快报：英文版 . 2002 ,第012期

机译：原子相互作用对超冷玻色气体中电磁感应的透明度和慢光的影响
3. Extremely slow propagation of a light pulse in an ultracold atomic vapor: A Raman scheme without electromagnetically induced transparency - art. no. 031802 [J] . Payne MG., Deng L. Physical Review, A. Atomic, molecular, and optical physics . 2001 ,第3期

机译：光脉冲在超冷原子蒸气中的极慢传播：没有电磁感应透明性的拉曼方案-艺术。没有。 031802
4. Electromagnetically induced transparency and extremely slow light in ultra-cold atomic gases in traps [C] . A.S.Troshin, N.A.Vasilev, SPIE-The International Society for Optical Engineering, International Workshop on Quantum Optics . 2004

机译：在陷阱中的超冷原子气体中电磁诱导的透明度和极慢的光
5. Localization of atomic excitation beyond the diffraction limit using electromagnetically induced transparency. [D] . Miles, Jared Anthony. 2015

机译：使用电磁感应的透明性，原子激发的位置超出衍射极限。
6. Single-photon transistor based on cavity electromagnetically induced transparency with Rydberg atomic ensemble [O] . Y. M. Hao, G. W. Lin, X. M. Lin, -1

机译：基于腔电磁感应和里德堡原子团的单光子晶体管
7. Extracting Dynamical Green's Function of Ultracold Quantum Gases via Electromagnetically Induced Transparency [O] . Jen, H. H., Wang, Daw-Wei 2014

机译：利用激光提取超冷量子气体的动态格林函数电磁感应透明度

Creation of an Effective Magnetic Field in Ultracold Atomic Gases Using Electromagnetically Induced Transparency

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