Temperature dependence of the energy-level shift induced by the Bose-Einstein condensation of photons

Temperature dependence of the energy-level shift induced by the Bose-Einstein condensation of photons

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摘要 We investigate the energy-level shift of a hydrogen atom in a two-dimensional optical microcavity, where there exists a Bose-Einstein condensation of photons. It is found that below the critical temperature Tc, the energy-level shift of the bound electron is dependent on temperature, and it is a monotonically increasing function of the absolute temperature T. Especially, at the absolute zero temperature, the energy-level shift entirely comes from the Lamb shift, and the atom can be treated approximately, that is, in vacuum. We investigate the energy-level shift of a hydrogen atom in a two-dimensional optical microcavity, where there exists a Bose-Einstein condensation of photons. It is found that below the critical temperature Tc, the energy-level shift of the bound electron is dependent on temperature, and it is a monotonically increasing function of the absolute temperature T. Especially, at the absolute zero temperature, the energy-level shift entirely comes from the Lamb shift, and the atom can be treated approximately, that is, in vacuum.

作者张建军成泽袁建辉张俊佩

机构地区 School of Physics

出处《Chinese Physics B》 SCIE EI CAS CSCD 2012年第9期113-119,共7页 中国物理B（英文版）

基金 Project supported by the National Natural Science Foundation of China (Grant Nos. 10174024 and 10474025)

关键词 Bose-Einstein condensation energy-level shift two-level atom Bose-Einstein condensation, energy-level shift, two-level atom

分类号 O431.2 [机械工程—光学工程]

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1Anderson M H, Ensher J R, Matthews M R, Wieman C E and Cornell E A 1995 Science 269 198.
2Davis K B, Mewes M O, Andrews M R, van Druten N J, Kurn D M and Ketterle W 1995 Phys. Rev. Lett. 75 3969.
3Bradley C C, Sackett C A and Hulet R G 1997 Phys. Rev. Lett. 78 985.
4Jochim S, Bartenstein M, Altmeyer A, Hendl G, Riedl S, Chin C, Hecker Denschlag J and Grimm R 2003 Science 302 2101.
5Deng H, Weihs G, Bloch J and Yamamoto Y 2002 Science 298 199.
6Wang Y Z, Zhou S Y, Long Q, Zhou S Y and Fu H X 2003 Chin,. Ph.. Left. 20 79.0.
7Balili R, Hartwell V, Snoke D, Pfeiffer L and West K 2007 Science 316 1007.
8Demokritov S O, Demidov V E, Dzyapko O, Melkov G A, Serga A A, Hillebrands B and Slavin A N 2006 Nature 443 430.
9Ortiz G and Dukelsky J 2005 Phys. Rev. A 72 043611.
10Li S C and Duan W S 2009 Chin. Phys. B 18 4177.

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2陈民助,何玉萼.电化学测量适配器的研制与应用[J].化学世界,1998,39(1):41-44. 被引量：1
3张允武,祝靖,孙国栋,刘翠春,孙伟峰,钱钦松.A noise immunity improved level shift structure for a 600 V HVIC[J].Journal of Semiconductors,2013,34(6):138-142. 被引量：2
4史凌峰,王庆斌,许文丹,苗紫晖.用于APFC的低功耗MOSFET驱动电路设计[J].西安电子科技大学学报,2011,38(1):54-58. 被引量：5
5Dannen,G,郑小石.爱因斯坦和西拉德共同发明的电冰箱[J].科学（中文版）,1997(5):41-47.
6张黎,尹向阳.IGBT驱动器的隔离技术分析[J].电源世界,2007(6):44-46. 被引量：3
7杨荣泽,张雅婷,颜富士.50～80nm均一晶径α-Al_2O_3粉末的制备[J].过程工程学报,2009,9(S2):22-26.
8王梅军.天然磁体和人造磁体[J].中学生数理化（初中版．中考版）,2013(11):24-24.
9信息产业部电子科技委<太阳能光伏产业发展战略研究>课题组.太阳能光伏产业发展战略研究报告(摘要)[J].中国集成电路,2008,17(6):10-21. 被引量：9
10GENG HaoRan,SUN ChunJing,WANG Rui,QI XiaoGang,ZHANG Ning.Temperature dependence of densities of Sb and Bi melts[J].Chinese Science Bulletin,2007,52(15):2031-2034. 被引量：2

Chinese Physics B

2012年第9期

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Temperature dependence of the energy-level shift induced by the Bose-Einstein condensation of photons

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