Quantum information and many body physics with cold atoms 被引量：4

Quantum information and many body physics with cold atoms

导出

摘要 We review our recent theoretical advances in quantum information and many body physics with cold atoms in various external potential, such as harmonic potential, kagome optical lattice, triangular optical lattice, and honeycomb lattice. The many body physics of cold atom in harmonic potential is investigated in the frame of mean-field Gross-Pitaevskii equation. Then the quantum phase transition and strongly correlated effect of cold atoms in triangular optical lattice, and the interacting Dirac fermions on honeycomb lattice, are investigated by using cluster dynamical mean-field theory and continuous time quantum Monte Carlo method. We also study the quantum spin Hall effect in the kagome optical lattice. We review our recent theoretical advances in quantum information and many body physics with cold atoms in various external potential, such as harmonic potential, kagome optical lattice, triangular optical lattice, and honeycomb lattice. The many body physics of cold atom in harmonic potential is investigated in the frame of mean-field Gross-Pitaevskii equation. Then the quantum phase transition and strongly correlated effect of cold atoms in triangular optical lattice, and the interacting Dirac fermions on honeycomb lattice, are investigated by using cluster dynamical mean-field theory and continuous time quantum Monte Carlo method. We also study the quantum spin Hall effect in the kagome optical lattice.

作者 ZHANG XiaoFei CHEN YaoHua LIU GuoCai WU Wei WEN Lin LIU WuMing

机构地区 Beijing National Laboratory for Condensed Matter Physics College of Science School of Science

出处《Chinese Science Bulletin》 SCIE CAS 2012年第16期1910-1918,共9页

基金 supported by the National Natural Science Foundation of China (10934010, 60978019 and 11104064) the National Basic Research Program of China (2009CB930701, 2010CB922904,2011CB921502 and 2012CB821300) the Research Grants Council of Hong Kong (11061160490 and 1386-N-HKU748/10) Zhang X F is also supported by the China Postdoctoral Science Foundation (2011M500032)

关键词量子信息理论冷原子物理 GROSS-PITAEVSKII方程多体平均场理论蒙特卡罗方法光晶格相互作用 ultracold atom, Bose-Einstein condensate, soliton, optical lattice, quantum phase transition

分类号 O562 [理学—原子与分子物理]

引文网络
相关文献

参考文献37

1Strecker K E, Partridge G B, Truscoff A G, et al. Formation and propa- gation of matter-wave soliton trains. Nature, 2002, 417:150-153.
2Khaykovich L, Schreck E Ferrari G, et al. Formation of a matter-wave bright soliton. Science, 2002 296:1290-1293.
3Becker C, Stellmer S, Soltan-Panahi E et al. Oscillations and inter- actions of dark and dark-bright solitons in Bose-Einstein condensates. Nature Phys, 2008, 4:496-501.
4Eiermann B, Anker Th, Albiez M, et al. Bright Bose-Einstein gap solitons of atoms with repulsive interaction. Phys Rev Lett, 2004, 92: 230401.
5Wang D L, Yan X H, Liu W M. Localized gap-soliton trains of Bose- Einstein condensates in an optical lattice. Phys Rev E, 2008.78:026606.
6Jaksch D, Bruder C, Cirac J I. et al. Cold bosonic atoms in optical lat- tices. Phys Rev Lett, 1998, 81:3108-3111.
7Petsas K I, Coates A B, Grynberg G. Crystallography of optical lattices. Phys Rev A, 1994, 50:5173-5189.
8Bloch I, Dalibard J, Zwerger W. Many-body physics with ultracold gases. Rev Mod Phys, 2008, 80:885-964.
9Hofstetter W, Cirac J 1, Zoller P, et al. High-temperature superfluidity of fermionic atoms in optical lattices. Phys Rev Lett, 2002, 89:220407.
10Inada Y, Horikoshi M, Nakajima S, et al. Critical temperature and con- densate fraction of a fermion pair condensate. Phys Rev Lett, 2008, 101 : 180406.

同被引文献16

1马杰,汪丽蓉,冀炜邦,肖连团,贾锁堂.Saturation of Photoassociation in Cs Magneto-optical Trap[J].Chinese Physics Letters,2007,24(7):1904-1907. 被引量：1
2WANG YaHong,SONG HeShan.Preparation of multi-atom specially entangled W-class state and splitting quantum information[J].Chinese Science Bulletin,2009,54(15):2599-2605. 被引量：20
3LIU WenZhang,ZHANG JingFu,LONG GuiLu.Simulation of the four-body interaction in a nuclear magnetic resonance quantum information processor[J].Chinese Science Bulletin,2009,54(22):4262-4265. 被引量：5
4WANG Hai,XIE ChangDe,PENG KunChi.Quantum storage of optical signals and coherent manipulation of quantum states based on electromagnetically induced transparency[J].Chinese Science Bulletin,2012,57(16):1893-1902. 被引量：4
5YING MingSheng,FENG Yuan,DUAN RunYao,LI YangJia,YU NengKun.Quantum programming:From theories to implementations[J].Chinese Science Bulletin,2012,57(16):1903-1909. 被引量：2
6LI HaiOu,YAO Bing,TU Tao,GUO GuoPing.Quantum computation on gate-defined semiconductor quantum dots[J].Chinese Science Bulletin,2012,57(16):1919-1924. 被引量：5
7JING JieTai,LIU CunJin,ZHOU ZhiFan,HUDELIST Florian,YUAN ChunHua,CHEN LiQing,LI XiaoYun,QIAN Jing,ZHANG KeYe,ZHOU Lu,MA HongMei,DONG GuangJiong,OU ZeYu,ZHANG WeiPing.Squeezing bandwidth controllable twin beam light and phase sensitive nonlinear interferometer based on atomic ensembles[J].Chinese Science Bulletin,2012,57(16):1925-1930. 被引量：1
8YU Shi,HE XiaoDong,XU Peng,LIU Min,WANG Jin,ZHAN MingSheng.Single atoms in the ring lattice for quantum information processing and quantum simulation[J].Chinese Science Bulletin,2012,57(16):1931-1945. 被引量：8
9周正威,陈巍,孙方稳,项国勇,李传锋.量子信息技术纵览[J].科学通报,2012,57(17):1498-1525. 被引量：34
10GAO GuiLong,CAI GenChang,HUANG.ShouSheng,TANG LongYing,GU WenJing,WANG MingFeng,JIANG-NianQuan.1→N quantum controlled phase gate realized in a circuit QED system[J].Science China(Physics,Mechanics & Astronomy),2012,55(8):1422-1426. 被引量：4

引证文献4

1郭光灿.评“量子信息技术纵览”[J].科学通报,2012,57(17):1497-1497. 被引量：1
2LIU YiMin.Scheme for the preparation of macroscopic W-type state of atomic ensembles in cavity QED coulped with optical fibers[J].Science China(Physics,Mechanics & Astronomy),2013,56(11):2122-2127. 被引量：1
3Jie Ma,Yuqing Li,Jizhou Wu,Liantuan Xiao,Suotang Jia.Laser intensity induced transparency in atom-molecular transition process[J].Chinese Science Bulletin,2014,59(22):2731-2735. 被引量：1
4LIU YiMin,JIN WuYin,YOU JiaBin.Photonic phase transition in circuit quantum electrodynamics lattices coupled to superconducting phase qubits[J].Science China(Physics,Mechanics & Astronomy),2014,57(11):2092-2097.

二级引证文献3

1LIU Yi Min,LIU Rong Wan.Optical quantum simulation of Abelian gauge field using cold atomic ensembles coupled with arrays of optical cavities[J].Science China(Physics,Mechanics & Astronomy),2014,57(12):2259-2265.
2Chuan Wang,Wei-Wei Shen,Si-Chen Mi,Yong Zhang,Tie-Jun Wang.Concentration and distribution of entanglement based on valley qubits system in graphene[J].Science Bulletin,2015,60(23):2016-2021. 被引量：4
3平一凡,杨青,刘忠菊.耦合腔系统中Bose-Hubbard模型与稳态制备的理论研究[J].科技创新与应用,2022,12(31):6-9.

1侯素梅.非空集合 u_2(R,S)的特征[J].广东工业大学学报,1998,15(1):69-71.
2李家荣.学习量子力学时应注意的二个问题[J].高等函授学报（自然科学版）,1997(3):10-14.
3姚建武.2—距离空间中不动点理论进展[J].西安文理学院学报（自然科学版）,1995,0(2):43-46.
4YUE HaiDi,ZHANG Yong,GONG Jian.Quantum discord in three-spin XXZ chain with three-spin interaction[J].Science China(Physics,Mechanics & Astronomy),2012,55(9):1641-1645. 被引量：2
5陈少华,王自强.应变梯度理论进展[J].力学进展,2003,33(2):207-216. 被引量：37
6高国峰.动物中的数学“天才”[J].学生阅读世界（初中生）,2011(1):41-41.
7刘承宜,陈清明,李再光.共振光散射的时间量子理论[J].光散射学报,1994,6(2):97-103.
8Maddox,J,刘兵.超导电性理论进展[J].世界科学,1991,13(1):6-6.
9赖云忠,梁九卿.哈密顿算符是SU(1,1)和SU(2)算子含时线性组合量子系统的时间演变及厄密不变量[J].物理学报,1996,45(5):738-746. 被引量：3
10陈俊,丁益民,罗鑫,靖姗,叶蒙,杨晗.基于DISLab电容充电法速度的测量[J].大学物理实验,2013,26(5):54-56.

Chinese Science Bulletin

2012年第16期

浏览历史

内容加载中请稍等...

Quantum information and many body physics with cold atoms 被引量：4

参考文献37

同被引文献16

引证文献4

二级引证文献3

相关作者

相关机构

相关主题

浏览历史