职称:教授
研究所:量子电子学研究所
研究领域:超冷原子量子模拟、原子钟
办公电话:86-10-62751778
电子邮件:xuzongchen[at]pku.edu.cn
个人主页:http://iqe.pku.edu.cn/index.php/show/view?id=39
教育背景
1979年9月-1983年7月江苏大学物理师资班(苏州大学物理系代培),专业:物理学
1987年9月-1993年7月中科院上海光机所博士生,专业:光学,导师:王育竹院士
主要研究领域
超冷原子物理、量子模拟、原子钟、精密测量
工作经历
1993年7-1995年7月在北京大学电子学系博士后,合作导师:北京大学原常务副校长王义遒教授
1996年9月-1997年9月在日本工业技术研究院任特别研究员,主要从事碘分子光谱与半导体激光频标的研究
1995年1月-2000年北京大学电子学系副教授
1998年10月-2002年,北京大学电子学系副系主任,主管本科教学
2000年1月-2021年10月, 北京大学电子学系教授
2003年至2007年,德国海德堡大学、法国巴黎高师、法国普鲁旺斯大学访问教授
2001年1月-至今,北京大学超冷原子物理与精密测量研究组负责人
2002年7月-2012年7月,北京大学信息科学技术学院副院长、主管本科教学
2005年9月-2019年, 北京大学量子电子学研究所所长
2006年7月-至今,北京大学先进技术研究院新型原子钟中心主任
2015年1月-至今,北京大学空间超冷原子物理实验室主任
2015年1月-至今,中国空间站冷原子柜 首席科学家
2021年11月-2023年4月,beat365亚洲体育在线官网教授
代表性学术论著
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,2022. https://doi.org/10.1016/j.scib.2022.12.005.
2.Ren Liao, Jingxin Sun , Pengju Zhao , Shifeng Yang , Hui Li, Xinyi Huang , Wei Xiong, Xiaoji Zhou, Dingping Li , Xiongjun Liu , and Xuzong Chen, Simulation of exact quantum Ising models with a Mott insulator of paired atoms, Physical Review A 106, 053308 (2022). (IF:2.971)
3.Xinxin Guo, Zhongcheng Yu, Fansu Wei, Shengjie Jin, Xuzong Chen, Xiaopeng Li,Xibo Zhang,Xiaoji Zhou,Quantum precision measurement of two-dimensional forces with 10^(-28) Newton stability, Science Bulletin 67, 2291(2022). (IF:20.577)。
4.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). (IF:3.833)
5.H. Li, J. Yu, X. Yuan, B. Wu, Y. Xie, L. Li, A. Liang, M. Huang, S. Jin, W. Xiong, B.Wang, D. Chen, T. Li, X. Hou, L. Liu, X. J. Zhou, W. B. Chen and X. Z. Chen, Deep cooling scheme of quantum degenerate gas and ground experimental verification for Chinese space station, Front. Phys. 10, 971059(2022). (IF:5.142)
5.Shengjie Jin, Xuzong Chen and Xiaoji Zhou, The manipulation of ultracold atoms of high orbitals in optical lattices, Front. Phys. 10, 957151(2022). (IF:5.142)
6.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);
https://doi.org/10.1063/5.0099415
7.Yu Xie,Bo Fan, Hui Li, Angang Liang, Mingshan Huang, Biao Wu, Bin Wang, Xuzong Chen,and Liang Liu,Ground experiment verification and on-orbit prediction of the two-stage cooling at pK level in the Chinese space station,J. Phys. B: At. Mol. Opt. Phys.(2022)55 205301
8.Xuzong Chen, Xiaoji Zhou, Anpei Ye, Yanhui Wang and Jingbiao Chen, The scientific career and contributions of Prof. Wang Yiqiu, Front. Phys. 10, 1012446 (2022). (IF:5.142)
9.Observation of many-body quantum phase transitions beyond the Kibble-Zurek Mechanism,Qi Huang, Ruixiao Yao, Libo Liang, Shuai Wang, Qinpei Zheng, Dingping Li, Wei Xiong, Xiaoji Zhou, Wenlan Chen, Xuzong Chen, and Jiazhong Hu,Physical Review Letters 127, 200601 (2021)
10.Extension of the Generalized Hydrodynamics to the Dimensional Crossover Regime, Frederik Møller , Chen Li ,Igor Mazets ,Hans-Peter Stimming,Tianwei Zhou ,Zijie Zhu, Xuzong Chen ,and Jörg Schmiedmayer, Physical Review Letters 126, 090602 (2021),
11.Evidence of Potts-Nematic Superfluidity in a Hexagonal sp2 Optical Lattice,Shengjie Jin, Wenjun Zhang ,Xinxin Guo, Xuzong Chen, Xiaoji Zhou, and Xiaopeng Li,Physical Review Letters 126, 035301 (2021)
13.Simulating an exact one-dimensional transverse Ising model in an optical lattice,Ren Liao ,Fangyu Xiong,and Xuzong Chen,Physical Review A, 103, 043312 (2021)
14.Fan, Bo, Luheng Zhao, Yin Zhang, Jingxin Sun, Wei Xiong, Jinqiang Chen, and Xuzong Chen. "Numerical study of evaporative cooling in the space station." Journal of Physics B: Atomic, Molecular and Optical Physics 54, No. 1 (2020): 015302.
15.Observation of a Hole in the Laser-Induced Cesium Beam Spectrum,Xuan He, Qing Wang, Zhichao Yuan, Xianghui Qi, and Xuzong Chen,IEEE Access,Vol. 9 (2021), 49974
16."Compact optically pumped cesium beam atomic clock with a 5-day frequency stability of 7×10−15," Xuan He, Shengwei Fang, Zhichao Yuan, Weibin Xie, Nan Chen, Zezheng Xiong, Qing Wang, Xianghui Qi, and Xuzong Chen, Appl. Opt. 60, 10761-10765 (2021) Editors’Pick
17.Field theoretical approach to spin models,Feng Liu, Zhenhao Fan, Zhipeng Sun, Xuzong Chen, Dingping Li,Front. Phys.16(6), 63504 (2021)
18.The emergence of picokelvin physics,Xuzong Chen and Bo Fan,Rep. Prog. Phys. 83, 076401 (31pp),(2020)
19.Relaxation of bosons in one dimension and the onset of dimensional crossover,Chen Li, Tianwei Zhou, Igor Mazets, Hans-Peter Stimming, Frederik S. Møller, Zijie Zhu, Yueyang Zhai, Wei Xiong, Xiaoji Zhou, Xuzong Chen and Jörg Schmiedmayer,SciPost Phys. 9, 058 (2020),
20.Frequency instability of a miniature optically pumped cesium-beam atomic frequency standard,Weibin Xie , Qing Wang , Xuan He, Nan Chen, Zezheng Xiong, Shengwei Fang, Xianghui Qi, and Xuzong Chen,Rev. Sci. Instrum. 91, 074705 (2020);
21.A linewidth locking method to control the microwave power in optically pumped cesium-beam clocks,Weibin Xie , Qing Wang , Xuan He, Zezheng Xiong, Nan Chen, Shengwei Fang, Xianghui Qi, and Xuzong Chen,Rev. Sci. Instrum. 91, 094708 (2020);
22.AEDGE: Atomic Experiment for Dark Matter and Gravity Exploration in Space,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, EPJ Quantum Technology, 7:6, (2020),https://doi.org/10.1140/epjqt/s40507-020-0080-0,
23.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).
24.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).
25.Observation of atom-number fluctuations in optical lattices via quantum collapse and revival dynamics, Tianwei Zhou, Kaixiang Yang, Zijie Zhu, Xudong Yu, Shifeng Yang, Wei Xiong, Xiaoji Zhou, and Xuzong Chen, Phys. Rev. A ,99, 013602 (2019)
26.Finite temperature phase transition in a cross-dimensional triangular lattice, Shengjie Jin, Xinxin Guo, Peng Peng, Xuzong Chen, Xiaopeng Li and Xiaoji Zhou, New Jou. of Phys., 21, 073015 (2019)
27.Parallel multicomponent interferometer with a spinor Bose-Einstein condensate, Pengju Tang, Peng Peng, Zhihan Li, Xuzong Chen, Xiaopeng Li, and Xiaoji Zhou, Phys. Rev. A, Volume 100, Issue 1, 013618 (2019)
28.Extraction and identification of noise patterns for ultracold atoms in an optical lattice, Shuyang Cao, Pengju Tang, Xinxin Guo, Xuzong Chen, Wei Zhang, and Xiaoji Zhou, Opt. Express, Volume 27, Issue 9, 12710-12722,(2019)
29.Asymmetric population of momentum distribution by quasi-periodically driving a triangular optical lattice, Xinxin Guo, Wenjun Zhang, Zhihan Li, Hongmian Shui, Xuzong Chen, and Xiaoji Zhou, Opt. Express., Volume 27, Issue 20, 27786-27796, (2019)
30.SAGE: A proposal for a space atomic gravity explorer,Guglielmo M. Tino1;a, Angelo Bassi, Giuseppe Bianco, Kai Bongs, Philippe Bouyer, Luigi Cacciapuoti, Salvatore Capozziello,Xuzong Chen, Maria L. Chiofalo, Andrei Derevianko, Wolfgang Ertmer, Naceur Gaaloul, Patrick Gill,Peter W. Graham,Jason M. Hogan, Luciano Iess, Mark A. Kasevich, Hidetoshi Katori, Carsten Klempt, Xuanhui 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 Sorrentino, Uwe Sterr, Jan W. Thomsen, Giuseppe Vallone, Flavio Vetrano, Paolo Villoresi,Wolf von Klitzing, David Wilkowski, Peter Wolf, Jun Ye, Nan Yu, and Mingsheng Zhan,Eur. Phys. J. D73: 22, (2019)
31.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).
32.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 Instruments,89, 123110 (2018); doi: 10.1063/1.5046815
33.Linxiao Niu, Shengjie Jin, Xuzong Chen, Xiaopeng Li, and Xiaoji Zhou,
“Observation of a Dynamical Sliding Phase Superfluid with P-Band Bosons,”Phys. Rev. Lett. 121, 253301 (2018)
34.Linxiao Niu, Xinxin Guo, Yuan Zhan, Xuzong Chen, W. M. Liu, and Xiaoji Zhou, Optimized fringe removal algorithm for absorption images, Applied Physics Letters 113, 144103 (2018).
35.Dong Hu, Linxiao Niu, Shengjie Jin, Xuzong Chen,Guangjiong Dong, Jorg Schmiedmayer, and Xiaoji Zhou,Ramsey interferometry with trapped motional quantum states, Comm. Phys. 1, 29 (2018).
36.Xiaoji Zhou, Shengjie Jin and Jörg Schmiedmayer,Shortcut loading a Bose–Einstein condensate into an optical lattice, New Journal of Physics 20, 055005
37.Chen Li, Tianwei Zhou, Yueyang Zhai, Xuguang Yue, Jinggang Xiang, Shifeng Yang, Wei Xiong, and Xuzong Chen,Optical Talbot carpet with atomic density gratings obtained by standing-wave manipulation,Phys. Rev. A 95,(2017)033821
38.Chen Li, Tianwei Zhou, Yueyang Zhai, Jinggang Xiang, Tian Luan, Qi Huang, Shifeng Yang, Wei Xiong, Xuzong Chen, Deep cooling of optically trapped atoms implemented by magnetic levitation without transverse confinement,Review of Scientific Instruments 88, (2017) 053104
39. Huirong Zhang, Xuzong Chen, Zhaoyuan Ma and Yuqing Zhou, Kagome lattices for ultracold atoms induced by additional lightfields, J. Phys. B: At. Mol. Opt. Phys. 49 ( 2016) 115301
40.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
41.Qiuyi Guo, Haodi Liu, Tianji Zhou,Xu-Zong Chen, Biao Wu, Nonlinear Landau-Zener tunneling in Majorana's stellar representation, European Physical journal D, 70, 128 (2016) doi:10.1140
42.Wei Xia and Xuzong Chen, Recent developments in fiber-based optical frequency comb and its applications, Meas. Sci. Technol. 27 (2016) 041001
43.QingWang, Xianghui Qi, Shuyong Liu, Jiachen Yu, and Xuzong Chen, “Laser frequency stabilization using a dispersive line shape induced by Doppler effect,” Opt. Express 23, 2982 (2015)
44.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)
45.Dong Hu, Linxiao Niu, Baoguo 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)
46.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, 10065 (2015)
47.Tianwei Zhou, Tian Luan, Xuzong Chen, Zhaouan Ma,” Magnetic Field Manipulation Applied to Feshbach Resonances in Ultracold Quantum Gases” ICPEAC, Journal of Physics: Conference Series(2015).
48.Wei Xai, Qiang Liu, Hui Hao, Dongmei Guo, Ming Wang, Xuzong Chen,
49.“Sinusoidal phase-modulating self-mixinginterferometer with nanometer resolution andimproved measurement velocity range”, Applied Optics 54,26 (2015)。
50.Ruizhi Pan, Xuguang Yue, Xia Xu, Haichang Lu, Xiaoji Zhou, “Multiple photon-echo rephasing of coherent matter waves,” Phys. Lett. A 379, 691 (2015)
51.Xia Xu, Bo Qing, Xuzong Chen, Xiaoji Zhou, “A simplified method for calculating the ac Stark shift of hyperfine levels of alkali-metal atoms,” Phys. Lett. A 379, 1347 (2015)
52.A modified Bitter-type electromagnet and control system for cold atom experiments,Tian Luan, Tianwei Zhou, Xuzong Chen, and Zhaoyuan Ma,REVIEW OF SCIENTIFIC INSTRUMENTS, 85, 024701 (2014)
53.Spin dynamics in one-dimensional optical lattices, Huirong Zhang, Yueyang Zhai1 and Xuzong Chen, J. Phys. B: At. Mol. Opt. Phys. 47 (2014) 025301 (5pp)
54.Measurement of Critical correlations in an ultracold Bose gas by means of a temporal Talbot-Lau interferometery, Xuzong Chen,,Wei Xiong,Yueyang Zhai, Xuguang Yue,Biao Wu, and Hongwei Xiong , Xiaoji Zhou, Journal of Physics: Conference Series 488 (2014) 012026i?
55.Tunneling dynamics and band structures of three weakly coupled Bose-Einstein condensates , Guo, QY (Guo, Qiuyi) ; Chen, XZ (Chen, XuZong); Wu, BA (Wu, Biao),OPTICS EXPRESS, Vol. 22, No. 16 ,(2014) 119234
56.陈徐宗,周小计,玻色-爱因斯坦凝聚的量子操控,Chinese Journal of Quantum Electronics,31,4,(2014), pp.433-441
57.A momentum filter for atomic gas,W. Xiong, Xiaoji Zhou, X.G. Yue, Y.Y. Zhai, Xuzong Chen, New Journal of Physics 15, 063025 (2013).
58.Observation of diffraction phases in matter-wave scattering,X.G. Yue , Y.Y. Zhai , Z.K. Wang, H.W. Xiong, Xuzong Chen, Xiaoji Zhou, Phys. Rev. A 88, 013603 (2013) .
59.Critical correlations in an ultra-cold Bose gas revealed by means of a temporal Talbot–Lau interferometer, Wei Xiong, Xiaoji Zhou, Xuguang Yue1, Xuzong Chen1, Biao Wu, Hongwei Xiong, Laser Phys. Lett. 10 , 125502(2013).
60.Effective preparation and collisional decay of atomic condensates in excited bands of an optical lattice, Y. Y. Zhai, X.G. Yue, Yanjiang Wu, Xuzong Chen, Peng Zhang, Xiaoji Zhou, Phys. Rev. A 87, 063638 (2013).
61.Asymmetric superradiant scattering and abnormal mode amplification induced by atomic density distortion, Z.K. Wang, L.X. Niu, P. Zhang, M.X. Wen, Z.Fang, X.Z. Chen, X.J. Zhou, Opt. Express 21, 14377 (2013)
62.Bragg diffraction of a matter wave driven by a pulsed nonuniform magnetic field, Yueyang Zhai, Peng Zhang, Xuzong Chen, Guangjiong Dong, Xiaoji Zhou, Phys. Rev. A 88,003600 (2013).
63.Density operator description of atomic ordered spatial modes in cavity QED, Zhen Fang, Baoguo Yang, Xuzong Chen, Xiaoji Zhou, Optics Comm. 306, 83 (2013).
64.Generating a picokelvin ultracold atomic ensemble in microgravity, Lu Wang, Peng Zhang, Xu-Zong Chen and Zhao-Yuan Ma, J. Phys. B: At. Mol. Opt. Phys.46 195302 (2013).
65.Spin model in the effective staggered magnetic field in optical lattices,Huirong Zhang, Qiuyi Guo, Zhaoyuan Ma, Xuzong Chen, Physical Review A , 87, 043625 (2013).
66.Observation of diffraction phases in matter-wave scattering,Yue, Xuguang; Zhai, Yueyang; Wang, Zhongkai; Xizoji Zhou, Xuzong Chen, PHYSICAL REVIEW A,Vol. 88, No. 1 ,013603 (2013 )
67.Huirong Zhang, Qiuyi Guo, Zhaoyuan Ma, Xuzong Chen. Staggered manipulation of ultracold atoms in optical lattices. Physical Review A, 2012, 86(5): 053622(1-5)
68. Wei Xiong,Yue, Zhongkai 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)
69. Xinxing Liu, Xiaoji Zhou,Wei Xiong, Thibault Vogt, and Xuzong Chen, Rapid nonadiabatic loading in an optical lattice, Phys. Rev. A 83, 063402 (2011).
70. Bo Lu, Thibault Vogt, Xinxing Liu, Xu Xu, Xiaoji Zhou, and Xuzong Chen, Cooperative scattering measurement of coherence in a spatially modulated Bose gas, Phys. Rev. A 83, 051608(R) (2011).
71. Xinxing Liu, Xiaoji Zhou, Wei Zhang, Thibault 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).
72. Jun Duan, Xianghui Qi, Xiaoji Zhou, and Xuzong Chen, Detection of saturated
73. absorption spectroscopy at high sensitivity with displaced crossovers, Opt. Lett. 36,561 (2011).
74. 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).
75. Thibault Vogt, Bo Lu, XinXing Liu, Xu Xu, Xiaoji Zhou, and Xuzong Che, Mode competition in superradiant scattering of matter waves, Phys. Rev. A 83 053603 (2011)
76. Minimization of the temperature coefficient of resonance frequency shift in the coherent population trapping clock, Ke Deng, Xuozng Chen, Zhong Wang, Opt. Lett. 36,1740(2011)
77. 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).
78. Zhen Fang, Rui Guo, Xiaoji Zhou, and Xuzong Chen, Atomic spatial coherence with spontaneous emission in a strong-coupling cavity, Phys. Rev. A 82, 015601(2010).
79. Muzhi Wu, Xiaoji Zhou, W. M. Liu, and Xuzong Chen, Roughness with a ?nite correlation length in a microtrap, Phys. Rev. A 81, 033625(2010).
80. Xiaoji Zhou, Xia Xu, Xuzong Chen, and Jingbiao Chen, Magic wavelengths for terahertz clock transitions, Phys. Rev. A 81, 012115 (2010).
81. Xiaoji Zhou, Xu Xu, Lan Yin, W. M. Liu, and Xuzong Chen, Detecting quantum coherence of Bose gases in optical lattices by scattering light intensity in cavity, Optics Express 18, 15664(2010).
82. L. Deng, E.W. Hagley,Qiang Cao, Xiaorui Wang, Xinyu Luo,Ruquan Wang,2 M. G. Payne,Fan Yang,Xiaoji Zhou,Xuzong Chen,and Mingsheng Zhan,Observation of a Red-Blue Detuning Asymmetry in Matter-Wave Superradiance,Phys. Rev. Lett., 105, 220404 (2010)
83. Tao Guo, Ke Deng, Xuzong Chen, and Zhong Wang, Atomic clock based on transient coherent population trapping, Applied Physics Letters 94, 151108(2009).
84. Xiaoji Zhou, Jiageng Fu, and Xuzong Chen, High-order momentum modes by resonant superradiant scattering, Phys. Rev. A 80, 063608(2009).
85. Xu Xu, Xiaoji Zhou, and Xuzong Chen, Spectroscopy of superradiant scattering from an array of Bose-Einstein condensates, Phys. Rev. A 79, 033605(2009).
86. 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).
87. 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).
88. 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).
89. Lin Xia, Fan Yang, Xiaoji Zhou, Xuzong Chen, Intensity ?uctuations of the F = 2 87Rb pulsed atom laser, Physics Letters A 373, 1429(2009).
90. Ke Deng, Tao Guo, Juan Su, Dengzhu Guo, Xinyuan Liu, Lu Liu, Xuzong Chen, Zhong Wang, Full hyper?ne frequency modulation in the implementation of coherent population trapping atomic clocks, Physics Letters A 373, 1130(2009).
91. ZHOU Xiao-Ji, CHEN Xu-Zong, CHEN Jing-Biao, WANG Yi-Qiu, LI Jia-Ming, Microwave Atomic Clock in the Optical Lattice with Specific Frequency, Chin. Phys. Lett. 26, 090601(2009).
92. 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,A. Clairon, 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).
93. 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).
94. 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).
95. Rui Guo, Xiaoji Zhou, and Xuzong Chen, Enhancement of motional entanglement of cold atoms by pairwise scattering of photons, Phys. Rev. A 78, 052107(2008).
96. 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).
97. Lin Xia, Xu Xu, Rui Guo, Fan Yang, Wei Xiong, Juntao 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).
98. 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).
63. Xu Xu, Xiaoji 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) .
99. 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 ?ber, Optics Communications 281, 4081–4087(2008).
100. Juntao Li, Xiaoji Zhou, Fan Yang, Xuzong Chen, Superradiant Rayleigh scattering from a Bose–Einstein condensate with the incident laser along the long axis, Physics Letters A 372, 4750–4753 (2008).
101. 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, (2006)013624
102. Li GQ, Fu LB, Xue JK, Chen XZ, Liu J, Collective Excitations of a Bose-Einstein Condensate in an Anharmonic Trap, Physical Review A,Vol.74,No.11, 2006
103. Wang GF, Ye DF, Fu LB, Chen ZX, Liu J, Landau-Zener Tunneling in a Nonlinear Three-Level System, Physical Review A,Vol.74,No.9, 2006
著作:
《高等光电子实验》,陈徐宗、王青、齐向晖、王爱民、赖舜男,北京大学出版社,ISBN:978-7-301-29865-7(2018.9)
主要科研项目
1、国家重点国际(地区)合作研究项目,项目号:11920101004,项目名称:光晶格中超冷原子气体量子动力学研究,(2020.01-2024.12),主持。
2、国家基金委重大研究计划重点支持项目,(项目号:91736208)超冷原子气体相变临界指数的精密测量, 2018/01-2021/12,主持。
3、国家载人航天空间站工程项目(921项目),空间站超冷原子物理实验柜——实验系统,2015.1-2022.12,主持。
4、国家自然科学基金重大研究计划培育项目,项目名称:获得pK温度铷原子量子气体的实验与理论研究 (2014.01-2016.12)(项目批准号:91336103)主持
5、国家重点基础研究发展计划:“基于超冷原子、分子体系的新物态和量子仿真研究”(2011年1月1-2015年12月)(基金号:2011CB921501)主持
6、国家自然科学基金仪器项目:“长期稳定工作的高精密半导体激光系统研究”(2011年1-2013年12月)(项目批准号:61027016),主持
7、国家重点基础研究课题;“超冷原子微波频标的探索”,(2005年8月---2010年8月)(基金号:2005CB724503)主持
8、国家重点基础研究发展计划:“三维与二维周期光场中的玻色气体的相变与强关联特性研究”(2006年12月1-2011年12月1日)(基金号2006CB921401)主持
9、国家自然科学基金重大项目:“新一代光学频率标准物理及技术的基础研究”我们负责的子项目名称“光学频率到微波频率传递的关键技术研究”(2004.7-2008.6)(基金号:60490280) 主持
主要获奖成果
1992年中国科学院科技进步一等奖
1993年中科院研究生院长奖优秀奖
1996年北京大学青年教师优秀奖
2008年上海慕尼黑光电展获“2008年度中国光学重要成果”奖(排名第一)
2010年北京市教学成果奖:北京大学信息科学技术人才培养(排名第一)
2014年北京大学优秀共产党员
2014年北京市师德先进个人
2015年北京市高校名师奖
2018年国务院政府津贴
社会服务
2000年-2020年 中国物理学会量子光学专业委员会委员。
2000年-至今《量子光学学报》编委。
2004年-2021年 中国计量测试学会理事时间频率专业委员会副主任委员、中国计量测试学会理事。
2006年-2010年教育部电子科学技术教学指导委员会委员。
2006年-2015年 英国物理学会期刊《Measurement of Science and Technology》编委。
2006年-2021年《量子电子学学报》编委。
2007年-2020年中国物理学会饶毓泰奖评审委员会委员。
2007年-2020年《Chinese Optics Letters》编委。
2008年-至今任英国物理学会Fellow(会士)。
2009年-2020年至今教育部卫星导航联合研究中心技术委员会委员。
2009年-2020年至今中国宇航学会光电子技术专业委员会常务委员。
2010年-至今中国物理学会原子与分子专业委员会委员。
2019年-至今,美国物理学会《Quantum Science》杂志副主编。