Realization of a single and closed ∧-system in a room-temperature three-level coherently prepared resonant medium with narrow D_1 hyperfine splittings

K. Li; L. Deng; M. G. Payne

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Realization of a single and closed ∧-system in a room-temperature three-level coherently prepared resonant medium with narrow D_1 hyperfine splittings

机译：室温三能相干制备的具有窄D_1超细裂隙的共振介质中单封闭∧系统的实现

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A single, closed three-state ∧-system in room-temperature rubidium is investigated experimentally using a copropagating beam parallel-polarization configuration under weakly driven electromagnetically induced transparency (EIT) condition. Compare with the widely used orthogonal-polarization beam EIT configuration where multiple nonclosed ∧-schemes coexist, the parallel-polarizations configuration can completely eliminate the leakage light from the control field. Our state preparation and laser polarization lead to a single and closed ∧-scheme that eliminates the detrimental absorption due to nearby states in atomic species with hyperfine separations smaller than Doppler-broadened line widths, a case where the conventional EIT configuration fails completely.

机译：在弱驱动的电磁感应透明性（EIT）条件下，使用共传播光束平行极化配置，对室温id中的单闭式三态∧系统进行了实验研究。与广泛使用的正交偏振光束EIT配置（多个非闭合∧-方案共存）相比，平行偏振配置可以完全消除控制场中的泄漏光。我们的状态准备和激光偏振导致单一且封闭的∧方案，该方案消除了原子物种中附近态的有害吸收，其中超细间距小于多普勒展宽的线宽，这是传统EIT配置完全失效的情况。

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来源
《Applied Physicsletters》 |2009年第22期|221103.1-221103.3|共3页
作者
K. Li; L. Deng; M. G. Payne;
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作者单位

Physics Laboratory, National Institute of Standards & Technology, Gaithersburg, Maryland 20899, USA Center for Cold Atom Physics, Wuhan Institute of Physics and Mathematics, CAS, Wuhan 430071, People's Republic of China;

Physics Laboratory, National Institute of Standards & Technology, Gaithersburg, Maryland 20899, USA;

Physics Laboratory, National Institute of Standards & Technology, Gaithersburg, Maryland 20899, USA;

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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);
原文格式 PDF
正文语种 eng
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入库时间 2022-08-18 03:20:08

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Realization of a single and closed ∧-system in a room-temperature three-level coherently prepared resonant medium with narrow D_1 hyperfine splittings

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