欢迎您来到北京大学量子电子学研究所! 联系电话:010-6275-3208

联系方式

联系电话: 010-6275-3208

Selected Publications (since 2006)

2022:

[1]    Libo Liang, Wei Zheng, Ruixiao Yao, Qinpei Zheng, Zhiyuan Yao, Tian-Gang Zhou, Qi Huang, Zhongchi Zhang, Jilai Ye, Xiaoji Zhou, Xuzong Chen, Wenlan Chen, Hui Zhai, Jiazhong Hu

Probing quantum many-body correlations by universal ramping dynamics

Science Bulletin, 67, 2550-2556 (2022)

[2]    Xinxin Guo, Zhongcheng Yu, Fansu Wei, Shengjie Jin, Xuzong Chen, Xiaopeng LiXibo ZhangXiaoji Zhou

Quantum precision measurement of two-dimensional forces with 10^(-28) Newton stability

Science Bulletin, 67, 2291 (2022)

[3]    Xiangyu Dong, Chengyang Wu, Zhongcheng Yu, Jinyuan Tian, Zhongkai Wang, Xuzong Chen, Shengjie Jin, Xiaoji Zhou

Atomic Ramsey interferometry with S- and D-band in a triangular optical lattice

Optics Express, 30, 41437 (2022)

[4]    Xuan He, Zhichao Yuan, Jiayuan Chen, Shengwei Fang, Xuzong Chen, Qing Wang and Xianghui Qi

 Improvement of the short- and long-term stability of high performance portable optically pumped cesium beam atomic clock

Frontiers in Physics, 841 (2022)

[5]    Shengjie Jin, Xuzong Chen and Xiaoji Zhou

The manipulation of ultracold atoms of high orbitals in optical lattices

Frontiers in Physics, 10, 957151 (2022)

[6]    Xuzong Chen, Xiaoji Zhou, Anpei Ye, Yanhui Wang and Jingbiao Chen

The scientific career and contributions of Prof. Wang Yiqiu

Frontiers in Physics, 10, 1012446 (2022)

[7]    Hui Li, Jiachen Yu, Xiaolong Yuan, Biao Wu, Yu Xie, Lin Li, Angang Liang, Mingshan Huang, Shengjie Jin, Wei Xiong, Bin Wang, Dijun Chen, Tang Li, Xia Hou, Liang Liu, Xiaoji Zhou, Weibiao Chen, Xuzong Chen

Deep cooling scheme of quantum degenerate gas and ground experimental verification for chinese space station

Frontiers in Physics, 10, 971059 (2022)

[8]    Weibin Xie, Qing Wang, Xuan He, Shengwei Fang, Zhichao Yuan, Xianghui Qi, and Xuzong Chen

A cold cesium beam source based on a two dimensional magneto-optical trap

AIP Advances, 12, 075124 (2022)

[9]    Yu Xie, Bo Fan, Hui Li, Angang Liang, Mingshan Huang, Biao Wu, Bin Wang, Xuzong Chen, Liang Liu

Ground experiment verification and on-orbit prediction of the two-stage cooling at pK level in Chinese Space Station

Journal of Physics B: Atomic, Molecular and Optical Physics, 55, 205301 (2022)

[10]    Ren Liao, Jingxin Sun, Hui Li, Shifeng Yang, Pengju Zhao, Xinyi Huang, Wei Xiong, Xiaoji Zhou, Dingping Li, Xiongjun Liu, Xuzong Chen

 Simulation of exact quantum Ising models with a Mott insulator of paired atoms

 Phys. Rev. A, 106: 053308. (2022)

 

2021:

[1]      Shengjie Jin, Wenjun Zhang, Xinxin GuoXuzong Chen, Xiaoji Zhou, and Xiaopeng Li

Evidence of Potts-Nematic Superfluidity in a Hexagonal SP2 Optical Lattice

Phys.Rev.Lett.,126,03530 (2021)

 

[2]      Frederik Møller, Chen Li, Igor Mazets, Hans-Peter StimmingTianwei Zhou, Zijie Zhu, Xuzong Chen, and Jörg Schmiedmayer

Extension of the Generalized Hydrodynamics to the Dimensional Crossover Regime

Phys. Rev. Lett.126, 090602 (2021)

 

2020:

[1]      Xuzong Chen and Bo Fan

The emergence of picokelvin physics

Rep. Prog. Phys. 83, 076401 (31pp) (2020)

 

[2]      Chen Li, Tianwei Zhou, Igor Mazets, Hans-Peter Stimming, Frederik S. MøllerZijie Zhu, Yueyang Zhai, Wei XiongXiaoji Zhou, Xuzong Chen and Jörg Schmiedmayer

Relaxation of bosons in one dimension and the onset of dimensional crossover

SciPost Phys. 9, 058 (2020)

 

[3]      Weibin Xie, Qing Wang, Xuan He, Nan Chen, Zezheng XiongShengwei Fang, Xianghui Qi, and Xuzong Chen

Frequency instability of a miniature optically pumped cesium-beam atomic frequency standard

Rev. Sci. Instrum. 91, 074705 (2020)

 

[4]      Weibin XieQing WangXuan He, Zezheng Xiong, Nan Chen, Shengwei Fang, Xianghui Qi, and Xuzong Chen

linewidth locking method to control the microwave power in optically pumped cesium-beam clocks

Rev. Sci. Instrum. 91, 094708 (2020)

 

[5]      Yousef Abou El-Neaj1, Cristiano Alpigiani2, Sana Amairi-Pyka3, Henrique Araújo4, Antun Balaž5, Angelo Bassi6, Lars Bathe-Peters7, Baptiste Battelier8, Aleksandar Beli´c5, Elliot Bentine9, José Bernabeu10, Andrea Bertoldi8†, Robert Bingham11,12, Diego Blas13, Vasiliki Bolpasi14, Kai Bongs15†, Sougato Bose16, Philippe Bouyer8†, Themis Bowcock17, William Bowden18, Oliver Buchmueller4*† , Clare Burrage19, Xavier Calmet20, Benjamin Canuel8†, Laurentiu-Ioan Caramete21†, Andrew Carroll17, Giancarlo Cella22, Vassilis Charmandaris23, Swapan Chattopadhyay24,25, Xuzong Chen26, et.al

AEDGE: Atomic Experiment for Dark Matter and Gravity Exploration in Space

EPJ Quantum Technology, 7:6 (2020)

 

[6]      P. Tang, X. Dong, W. Zhang, Y. Li, X.Z. Chen, X. J. Zhou*

Implementation of a double-path multimode interferometer using a spinor Bose-Einstein condensate

Phys. Rev. A 101, 013612 (2020)

 

[7]      T. Zhou, Z. Yu, Z. Li, X. Z.Chen, X. J. Zhou*

Simulation of a nodal-line semimetal in amplitude-shaken optical lattices

Phys. Rev. A 102, 023328 (2020)

 

2019:

[1]  Tianwei Zhou, Kaixiang Yang, Zijie Zhu, Xudong Yu, Shifeng Yang, Wei XiongXiaoji Zhou, and Xuzong Chen

Observation of atom-number fluctuations in optical lattices via quantum collapse and revival dynamics

Phys. Rev. A ,99, 013602 (2019)

 

[2]  Shengjie Jin, Xinxin GuoPeng PengXuzong Chen, Xiaopeng Li and Xiaoji Zhou

Finite temperature phase transition in a cross-dimensional triangular lattice

New Jou. of Phys., 21, 073015 (2019)

 

[3]  Pengju Tang, Peng PengZhihan Li, Xuzong Chen, Xiaopeng Li, and Xiaoji Zhou

Parallel multicomponent interferometer with a spinor Bose-Einstein condensate

Phys. Rev. A, Volume 100, Issue 1, 013618 (2019)

 

[4]  Shuyang Cao, Pengju Tang, Xinxin GuoXuzong Chen, Wei Zhang, and Xiaoji Zhou

Extraction and identification of noise patterns for ultracold atoms in an optical lattice

Opt. Express, Volume 27, Issue 9, 12710-12722,(2019)

 

[5]  Xinxin GuoWenjun Zhang, Zhihan Li, Hongmian ShuiXuzong Chen, and Xiaoji Zhou

Asymmetric population of momentum distribution by quasi-periodically driving a triangular optical lattice

Opt. Express., Volume 27, Issue 20, 27786-27796, (2019)

 

[6]  Guglielmo M. Tino1;a, Angelo Bassi, Giuseppe Bianco, Kai Bongs, Philippe Bouyer, Luigi Cacciapuoti, Salvatore Capozziello,Xuzong Chen, Maria L. Chiofalo, Andrei Derevianko, Wolfgang ErtmerNaceur Gaaloul, Patrick Gill Peter W. Graham,Jason M. Hogan, Luciano Iess, Mark A. Kasevich, Hidetoshi KatoriCarsten KlemptXuanhui Lu, Long-Sheng Ma, Holger Muller, Nathan R. Newbury, Chris W. Oates, Achim Peters, Nicola Poli, Ernst M. Rasel, Gabriele Rosi,Albert Roura, Christophe Salomon, Stephan Schiller, Wolfgang Schleich, Dennis Schlippert, Florian Schreck,Christian Schubert, Fiodor SorrentinoUwe Sterr, Jan W. Thomsen, Giuseppe ValloneFlavio Vetrano, Paolo Villoresi,Wolf von Klitzing, David Wilkowski, Peter Wolf, Jun Ye, Nan Yu, and Mingsheng Zhan

SAGE: A proposal for a space atomic gravity explorer

Eur. Phys. J. D73: 22, (2019)

 

2018:

[1]  T. W. Zhou, K. X. Yang, Y. Y. Zhai, X. G. Yue, S. F. Yang, J. G. Xiand, Q. Huang, W. Xiong, X. J. Zhou, X. Z. Chen

High precision calibration of optical lattice depth based on multiple pulses Kapitza-Dirac Diffraction

Opt. Express 26, 016726 (2018)

 

[2]  Tian Luan, Yufan Li, Xuesong Zhang, and Xuzong Chen

Realization of two-stage crossed beam cooling and the comparison with Delta-kick cooling in experiment

Review of Scientific Instruments89, 123110 (2018); doi: 10.1063/1.5046815

 

[3]  Linxiao NiuShengjie Jin, Xuzong Chen, Xiaopeng Li, and Xiaoji Zhou

Observation of a Dynamical Sliding Phase Superfluid with P-Band Bosons

Phys. Rev. Lett121, 253301 (2018)

 

[4]  Linxiao NiuXinxin Guo, Yuan Zhan, Xuzong Chen, W. M. Liu, and Xiaoji Zhou

Optimized fringe removal algorithm for absorption images

Applied Physics Letters 113, 144103 (2018)

 

[5]  Dong Hu, Linxiao NiuShengjie Jin, Xuzong Chen,Guangjiong Dong, Jorg Schmiedmayer, and Xiaoji Zhou

Ramsey interferometry with trapped motional quantum states

Comm. Phys. 1, 29 (2018)

 

[6]  Xiaoji Zhou, Shengjie Jin and Jörg Schmiedmayer

Shortcut loading a Bose–Einstein condensate into an optical lattice

New Journal of Physics 20, 055005 (2018)

 

2017:

[1]  Chen Li, Tianwei Zhou, Yueyang ZhaiXuguang YueJinggang Xiang, Shifeng Yang, Wei Xiong, and Xuzong Chen

Optical Talbot carpet with atomic density gratings obtained by standing-wave manipulation

Phys. Rev. A 95, 033821 (2017)

 

2016:

[1]  Zhongkai Wang, Baoguo Yang, Dong Hu, Xuzong Chen, Hongwei Xiong, Biao Wu, and Xiaoji Zhou

Observation of quantum dynamical oscillations of ultracold atoms in the F and D bands of an optical lattice

Phys. Rev. A 94, 033624 (2016) 

 

[2]  Linxiao NiuPengju Tang, Baoguo Yang, Xuzong Chen, Biao Wu, and Xiaoji Zhou

Observation of Quantm Equilibration in Dilute Bose Gases

Phys. Rev. A 94, 063603 (2016)  

 

[3]  Qiuyi GuoHaodi Liu, Tianji Zhou, Xuzong Chen, and Biao Wu

Nonlinear Landau-Zener tunneling in Majorana's stellar representation

European Physical Journal D 70, 128 (2016) 

 

[4]  Zhang, Huirong; Chen, Xuzong; Ma, Zhaoyuan

Kagome lattices for ultracold atoms induced by additional lightfields

Journal of Physics B-Atomic molecular and Optical Journal, 49, No.11,: 115301, JUN 14 (2016) 

 

[5]  Hepeng Yao, Tian Luan, Chen Li, Yin Zhang, Zhaoyuan Ma, Xuzong Chen

Comparison of different techniques in optical trap for generating picokelvin 3D atom cloud in microgravity

Optics Communications 359 (2016) 123–128 

 

[6]  Dai, Shaoyang; Xia, Wei; Zhang, Yin

Polarization dependence of the direct two photon transitions of Rb-87 atoms by erbium: Fiber laser frequency comb

Optics Communications378pp 35-40, NOV. 1, 2016

 

[7]  Wei Xia and Xuzong Chen

Recent developments in fiber-based optical frequency comb and its applications

Meas. Sci. Technol. 27 (2016) 041001 (12pp) 

 

2015:

[1]  Tian Luan, Hepeng Yao, Lu Wang, Chen Li, Shifeng Yang, Xuzong Chen, and Zhaoyuan Ma

Two-stage crossed beam cooling with 6Li and 133Cs atoms in microgravity

Opt. Express 23, 11378 (2015) 
 

[2]  Dong Hu, Linxiao NiuBaoguo Yang, Xuzong Chen, Biao Wu, Hongwei Xiong, and Xiaoji Zhou

Long-time nonlinear dynamical evolution for P-band ultracold atoms in an optical lattice 

Phys. Rev. A 92, 043614 (2015)

 

[3]  Linxiao Niu, Dong Hu, Shengjie Jin, Xiangyu Dong, Xuzong Chen, and Xiaoji Zhou

Excitation of atoms in an optical lattice driven by polychromatic amplitude modulation

Opt. Express 23, 10064 (2015)  

 

[4]  Wei Xia, Qiang Liu, Hui HaoDongmei Guo, Ming Wang, and Xuzong Chen

Sinusoidal phase-modulating self-mixing interferometer with nanometer resolution and improved measurement velocity range

Appl. Opt. 54, 7820 (2015)  

 

2014:

[1]  Tian Luan, Tianwei Zhou, Xuzong Chen and Zhaoyuan Ma

A modified Bitter-type electromagnet and control system for cold atom experiments

Rev. Sci. Instrum. 85, 024701, (2014)

 

[2]  Huirong Zhang, Yueyang Zhai and Xuzong Chen

Spin dynamics in one-dimensional optical lattices

J. Phys. B: At. Mol. Opt. Phys. 47, 025301, (2014)

 

[3]  Xuzong Chen, Wei XiongYueyang ZhaiXuguang Yue, Biao Wu, and Hongwei Xiong , Xiaoji Zhou

Measurement of Critical correlations in an ultracold Bose gas by means of a temporal Talbot-Lau interferometery
Journal of Physics: Conference Series 488 (2014) 

 

[4]  Qiuyi GuoXuZong Chen and Biao Wu

Tunneling dynamics and band structures of three weakly coupled Bose-Einstein condensates

     Opt. Express 22, 19234, (2014)

 

2013:

[1]  Wei XiongXiaoji Zhou, Xuguang YueYueyang Zhai, and Xuzong Chen

A momentum filter for atomic gas

New J. Phys. 15, 063025 (2013)

 

[2]  Xuguang YueYueyang Zhai , Zhongkai Wang, Hongwei XiongXuzong Chen, and Xiaoji Zhou

Observation of diffraction phases in matter-wave scattering

Phys. Rev. A 88, 013603 (2013) 

 

[3]  Wei XiongXiaoji Zhou, Xuguang YueXuzong Chen, Biao Wu, and Hongwei Xiong

Critical correlations in an ultra-cold Bose gas revealed by means of a temporal Talbot–Lau interferometer

Laser Phys. Lett. 10, 125502 (2013)

 

[4]  Yueyang ZhaiXuguang YueYanjiang Wu, Xuzong Chen, Peng Zhang, and Xiaoji Zhou

Effective preparation and collisional decay of atomic condensates in excited bands of an optical lattice

Phys. Rev. A 87, 063638 (2013)

 

[5]  Zhongkai Wang, Linxiao NiuPeng Zhang, Mingxuan Wen, Zhen Fang, Xuzong Chen, and Xiaoji Zhou

Asymmetric superradiant scattering and abnormal mode amplification induced by atomic density distortion

Opt. Express, 21, 14377 (2013)

 

[6]  Yueyang ZhaiPeng Zhang, Xuzong Chen, Guangjiong Dong, and Xiaoji Zhou

Bragg diffraction of a matter wave driven by a pulsed nonuniform magnetic field

Phys. Rev. A 88, 053629 (2013)

 

[7]  Zhen Fang, Baoguo Yang, Xuzong Chen, and Xiaoji Zhou

Density operator description of atomic ordered spatial modes in cavity QED

Opt. Commun. 306, 83 (2013)

 

[8]  Lu Wang, Peng Zhang, Xuzong Chen, and Zhaoyuan Ma

Generating a picokelvin ultracold atomic ensemble in microgravity

J. Phys. B-At. Mol. Opt. Phys. 46, 195302 (2013) 

 

[9]  Huirong Zhang, Qiuyi GuoZhaoyuan Ma, and Xuzong Chen

Spin model in the effective staggered magnetic field in optical lattices

Phys. Rev. A 87, 043625 (2013)

 

[10]  YueXuguangZhaiYueyangWang, ZhongkaiXizoji ZhouXuzong Chen

Observation of diffraction phases in matter-wave scattering
Phys. Rev. A 88, 013603 (2013)

 

2012:

[1]  Huirong Zhang, Qiuyi GuoZhaoyuan Ma, and Xuzong Chen

Staggered manipulation of ultracold atoms in optical lattices

Phys. Rev. A 86, 053622 (2012)

 

2011:

[1]  Wei Xiong,YueZhongkai Wang, Xiaoji Zhou and Xuzong Chen

Manipulating the momentum state of a condensate by sequences of standing-wave pulses

Phys. Rev. A 84, 043616 (2011)

 

[2]  Xinxing Liu, Xiaoji ZhouWei XiongThibault Vogt, and Xuzong Chen

Rapid nonadiabatic loading in an optical lattice

Phys. Rev. A 83, 063402 (2011)  

 

[3]  Bo Lu, Thibault Vogt, Xinxing Liu, Xu XuXiaoji Zhou, and Xuzong Chen

Cooperative scattering  measurement of coherence in a spatially modulated Bose gas

Phys. Rev. A 83, 051608(R) (2011)  

 

[4]  Xinxing LiuXiaoji Zhou, Wei ZhangThibault Vogt, Bo Lu, Xuguang Yue, and Xuzong Chen

Exploring multiband excitations of interacting Bose gases in a one-dimensional optical lattice by coherent scattering

Phys. Rev. A 83, 063604 (2011) 

 

[5]  Jun DuanXianghui Qi, Xiaoji Zhou, and Xuzong Chen

Detection of saturated absorption spectroscopy at high sensitivity with displaced crossovers

Opt. Lett. 36,561 (2011)  

 

[6]  Bo Lu, Xiaoji Zhou, Thibault Vogt, Zhen Fang, and Xuzong Chen

Laser driving of superradiant scattering from a Bose-Einstein condensate at variable incidence angle

Phys. Rev. A 83, 033620 (2011) 

 

[7]  Thibault Vogt, Bo Lu, XinXing Liu, Xu XuXiaoji Zhou, and Xuzong Chen

Mode competition in superradiant scattering of matter waves

Phys. Rev. A 83 053603 (2011)  

 

[8]  Ke Deng, Xuozng Chen, Zhong Wang

Minimization of the temperature coefficient of resonance frequency shift in the coherent population trapping clock

Opt. Lett. 36,1740 (2011) 

 

2010:

[1]  Xiaoji Zhou, Fan Yang, Xuguang Yue, T. Vogt, and Xuzong Chen

Imprinting light phase on matter-wave gratings in superradiance scattering

Phys. Rev. A 81, 013615 (2010)

 

[2]  Zhen Fang, Rui GuoXiaoji Zhou, and Xuzong Chen

Atomic spatial coherence with spontaneous emission in a strong-coupling cavity

Phys. Rev. A 82, 015601 (2010)  

 

[3]  Muzhi Wu, Xiaoji Zhou, W. M. Liu, and Xuzong Chen

Roughness with a finite correlation length in a microtrap

Phys. Rev. A 81, 033625 (2010)

 

[4]  Xiaoji Zhou, Xia Xu, Xuzong Chen, and Jingbiao Chen

Magic wavelengths for terahertz clock transitions 
Phys. Rev. A 81, 012115 (2010)

 

[5]  Xiaoji Zhou, Xu XuLan Yin, W. M. Liu, and Xuzong Chen

Detecting quantum coherence of Bose gases in optical lattices by scattering light intensity in cavity

Opt. Express 18, 15664 (2010) 

 

2009:

[1]  Tao GuoKe Deng, Xuzong Chen, and Zhong Wang

Atomic clock based on transient coherent population trapping

Applied Physics Letters 94, 151108 (2009)

 

[2]  Xiaoji Zhou, Jiageng Fu, and Xuzong Chen

High-order momentum modes by resonant superradiant scattering

Phys. Rev. A 80, 063608 (2009)

 

[3]  Xu XuXiaoji Zhou, and Xuzong Chen

Spectroscopy of superradiant scattering from an array of Bose-Einstein condensates

Phys. Rev. A 79, 033605 (2009)

 

[4]  Xiang Hui Qi, Wen Lan Chen, Lin Yi, Xiao Ji Zhou and Xu Zong Chen

Modulation Transfer Spectroscopy of Coherent Population Trapping based on phase-coherent lasers

Optics Express 17, 6741 (2009)

 

[5]  Lin Yi , Xianghui Qi, Wenlan Chen, Jingbiao Chen, Xiaoji Zhou, Xuzong Chen

Enhancing the stabilizing robustness for optical frequency comb

Measurement 42, 711–715 (2009)

 

[6]  Xiang Hui Qi, Lin Yi, Qian Li Ma, Da Wei Zhou, Xiao Ji Zhou, and Xu Zong Chen

Study of phase coherence degradation induced by a tapered semiconductor amplifier with frequency-modulated continuous-wave and pulsed seed lasers

Applied Optics 48, 4370 (2009)

 

[7]  S. Schiller, G.M. Tino, P. Gill, C. Salomon, U. Sterr, E. Peik, A. Nevsky, A. Gorlitz, D. Svehla,G. Ferrari, N. Poli, L. Lusanna, H. Klein, H. Margolis, P. Lemonde, P. Laurent, G. Santarelli,AClairon, W. Ertmer, E. Rasel, J. Muller, L. Iorio, C. Lammerzahl, H. Dittus, E. Gill, M.Rothacher, F. Flechner, U. Schreiber, V. Flambaum, Wei-Tou Ni, Liang Liu, Xuzong Chen, J.Chen, K. Gao, L. Cacciapuoti, R. Holzwarth, M.P. He_, W. Schaefer

Einstein Gravity Explorer a medium-class fundamental physics mission

Exp. Astron. 23, 573 (2009) 

 

2008:

[1]  Wenlan Chen, Xianghui Qi, Lin Yi, Ke Deng, Zhong Wang, Jingbiao Chen, and Xuzong Chen

Optical phase locking with a large and tunable frequency difference based on a vertical-cavity surface-emitting laser

Optics Letters 33, 357 (2008)

 

[2]  K. Deng, T. Guo, D. W. He, X. Y. Liu, L. Liu, D. Z. Guo, X. Z. Chen, and Z. Wang

Effect of buffer gas ratios on the relationship between cell temperature and frequency shifts of the coherent population trapping resonance

Applied Physics Letters 92, 211104 (2008)  

 

[3]  Rui GuoXiaoji Zhou, and Xuzong Chen

Enhancement of motional entanglement of cold atoms by pairwise scattering of photons

Phys. Rev. A 78, 052107 (2008) 

 

[4]  Fan Yang, Xiaoji Zhou, Juntao Li, Yuankai Chen, Lin Xia, and Xuzong Chen

Resonant sequential scattering in two-frequency-pumping superradiance from a Bose-Einstein condensate

Phys. Rev. A, 78, 043611(2008)  

 

[5]  Lin Xia, Xu XuRui Guo, Fan Yang, Wei XiongJuntao Li, Qianli Ma, Xiaoji Zhou, Hong Guo, and Xuzong Chen

Manipulation of the quantum state by the Majorana transition in spinor Bose-Einstein condensates

Phys. Rev. A, 77, 043622 (2008)  

 

[6]  Xiao-Fei Zhang, Qin Yang, Jie-Fang Zhang, X. Z. Chen, and W. M. Liu

Controlling soliton interactions in Bose-Einstein condensates by synchronizing the Feshbach resonance and harmonic trap

Phys. Rev. A 77, 023613 (2008)  

 

[7]  Xu XuXiaoji Zhou and Xuzong Chen

Resonant Raman super-radiance in a Bose–Einstein condensate with two internal states

J. Phys. B: At. Mol. Opt. Phys. 41, 165302 (2008)  

 

[8]  Lin Yi, Xianghui Qi, Wenlan Chen, Jingbiao Chen, Xiaoji Zhou, Xuzong Chen

Enhancing the signal-to-noise ratio of optical frequency beating using open-loop photonic crystal fiber

Optics Communications 281, 4081–4087 (2008)  

 

2006:

[1]  Xiuquan Ma, Lin Xia, Fang Yang, Xiaoji Zhou, Yiqiu Wang, Hong Guo, and Xuzong Chen

Population oscillation of the multicomponent spinor Bose-Einstein condensate induced by nonadiabatic transitions

Phys. Rev. A 73, 013624 (2006)

 

[2]  Li GQ, Fu LB, Xue JK, Chen XZ, Liu J

Collective Excitations of a Bose-Einstein Condensate in an Anharmonic Trap

Phys. Rev. A 74, No.11 (2006)

 

[3]  Wang GF, Ye DF, Fu LB, Chen ZX, Liu J

Landau-Zener Tunneling in a Nonlinear Three-Level System

Phys. Rev. A 74, No.9 (2006)