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Publications

2025
  1. Robust suppression of high-frequency laser phase noise by adaptive Pound-Drever-Hall feedforward

    Yu-Xin Chao, Zhen-Xing Hua, Xin-Hui Liang, Zong-Pei Yue, Chen Jia, Li You, and Meng Khoon Tey
    Phys. Rev. Applied 23, L011005 (2025) arXiv:2407.19642
  1. Joint Estimation of a Two-Phase Spin Rotation beyond Classical Limit

    Jia-Hao Cao, Xinwei Li, Tianwei Mao, Wenxin Xu, and Li You
    Phys. Rev. Lett. 135, 023403 (2025) arXiv:2312.10480
  1. Quantum Hamiltonian Algorithms for Maximum Independent Sets

    Xianjue Zhao, Peiyun Ge, Li You, Frank Wilczek, and Biao Wu
    National Science Review, nwaf304 arXiv:2310.14546
  1. Observation of anomalous information scrambling in a Rydberg atom array

    Xinhui Liang, Zongpei Yue, Yu-Xin Chao, Zhen-Xing Hua, Yige Lin, Meng Khoon Tey, and Li You
    Phys. Rev. Lett. 135, 050201 (2025) arXiv:2410.16174

    Editor's Suggestion, Featured in Physics, SYNOPSIS "Quantum Scrambling Goes Anomalous" by Ryan Wilkinson, Physics 18, s103(2025). DOI · PDF
  1. Optimal Control of Unknown Collective Spin Systems via a Neural Network Surrogate

    Yaofeng Chen and Li You
    Chin. Phys. Lett. 42, 100601 (2025)


  1. Counting the Ground State Degeneracy by Evolution Methods

    Zhen Guo and Li You
    Phys. Rev. Lett. 135, 150601 (2025) arXiv:2406.03222

2024
  1. Enhanced measurement precision with continuous interrogation during dynamical decoupling

    Jun Zhang, Peng Du, Lei Jing, Peng Xu, Li You, and Wenxian Zhang
    Chinese Physics B 33, 030301 (2024)


  1. The dynamics of an open Bose-Hubbard dimer with effective asymmetric coupling

    Jinghui Pi, Feng Chen, Qi Liu, Li You, and Rong Lv
    The European Physical Journal B 97, 26 (2024)
  1. Dissipative time crystal in a strongly interacting Rydberg gas

    Xiaoling Wu, Zhuqing Wang, Fan Yang, Ruochen Gao, Chao Liang, Meng Khoon Tey, Xiangliang Li, Thomas Pohl, and Li You
    Nature Physics 20, 1389-1394 (2024) arXiv:2305.20070

    2024 Top Ten Social Impact Events in China's Optics (Light10) 
  1. Pound-Drever-Hall feedforward: laser phase noise suppression beyond feedback

    Yu-Xin Chao, Zhen-Xing Hua, Xin-Hui Liang, Zong-Pei Yue, Li You, and Meng Khoon Tey
    Optica 11(7), 945-950 (2024) arXiv:2309.09759

2023
  1. Detection of Entangled States Supported by Reinforcement Learning

    Jia-Hao Cao, Feng Chen , Qi Liu, Tian-Wei Mao, Wen-Xin Xu, Ling-Na Wu, and Li You
    Phys. Rev. Lett. 131, 073201 (2023) arXiv:2307.09176
  1. Cyclic nonlinear interferometry with entangled non-Gaussian states

    Qi Liu, Tian-Wei Mao, Ming Xue, Ling-Na Wu, and Li You
    Physical Review A 107, 052613 (2023) arXiv:2304.08866
  1. Performing SU(d) operations and rudimentary algorithms in a superconducting transmon qudit for d = 3 and d = 4

    Pei Liu, Ruixia Wang, Jingning Zhang, Yingshan Zhang, Xiaoxia Cai, Huikai Xu, Weiyang Liu, Zhiyuan Li, Jiaxiu Han, Xuegang Li, Guangming Xue, Li You, Yirong Jin, and Haifeng Yu
    Physical Review X 13, 021028 (2023) arXiv:2304.11841
  1. Quantum-enhanced sensing by echoing spin-nematic squeezing in atomic Bose-Einstein condensate

    Tian-Wei Mao, Qi Liu, Xin-Wei Li, Jia-Hao Cao, Feng Chen, Wen-Xin Xu, Meng Khoon Tey, Yi-Xiao Huang, and Li You
    Nature Physics 19, 1585-1590 (2023) arXiv:2212.09124

    Publisher correction: Nature Physics 19, 1733 (2023)

    Nomination Award, 2023 Award for China’s Top 10 Optical Breakthroughs (Fundamental Research)

2022
  1. Nonlinear interferometry beyond classical limit enabled by cyclic dynamics

    Qi Liu, Ling-Na Wu, Jia-Hao Cao, Tian-Wei Mao, Xin-Wei Li, Shuai-Feng Guo, Meng Khoon Tey, and Li You
    Nature Physics 18, 167-171 (2022)

    News & Views "Measure in circles" by Philipp Kunkel & Monika Schleier-Smith, Nature Physics, 124–125 (2022). DOI · PDF

  2. Quantum phases of time order in many-body ground states

    TC Guo, L You
    Frontiers in Physics 10, 847409 arXiv:2008.10188
  1. Entanglement and quantum teleportation under superposed gravitational fields

    Yue Li, Baocheng Zhang, and Li You
    New J. Phys. 24, 093034 (2022)
  1. Manipulating synthetic gauge fluxes via multicolor dressing of Rydberg-atom arrays

    Xiaoling Wu, Fan Yang, Shuo Yang, Klaus Molmer, Thomas Pohl, Meng Khoon Tey, and Li You
    Phys. Rev. Res. 4, L032046 (2022) arXiv:2203.03994
  1. Controlling Atomic Spin-mixing via Multiphoton Transitions in a Cavity

    Ming Xue, Xiangliang Li, Wenhao Ye, Jun-Jie Chen, Zhi-Fang Xu, and Li You
    Phys. Rev. A 106, 033708 (2022) arXiv:2204.09609

2021
  1. Topological superconductors in one-dimensional mosaic lattices

    QB Zeng, R Lü, L You
    EPL (Europhysics Letters) 135 (1), 17003 arXiv:2012.07547
  1. Magnetic solitons in an immiscible two-component Bose-Einstein condensate

    X Chai, L You, C Raman
    Physical Review A 105 (1), 013313 arXiv:2011.11462
  1. A concise review of Rydberg atom based quantum computation and quantum simulation

    X Wu, X Liang, Y Tian, F Yang, C Chen, YC Liu, MK Tey, L You
    Chinese Physics B 30 (2), 020305 arXiv:2012.10614

    one of the top 1% most-cited papers in IOP Publishing's Portfolio of Journals from 2020-2022

    the most influential paper of CPB 2023
  1. Faster state preparation across quantum phase transition assisted by reinforcement learning

    SF Guo, F Chen, Q Liu, M Xue, JJ Chen, JH Cao, TW Mao, MK Tey, L You
    Physical Review Letters 126 (6), 060401 arXiv:2011.11987
  1. Two-color optical nonlinearity in an ultracold Rydberg atom gas mixture

    C Chen, F Yang, X Wu, C Shen, MK Tey, L You
    Physical Review A 103 (5), 053303 arXiv:2104.08873

2020
  1. A divergent volume for black holes calls for no 'firewall'

    Baocheng Zhang , and Li You
    Communications in Theoretical Physics 72.2 (2020): 025401arXiv:2002.09823
  1. Multi-parameter estimation with multi-mode Ramsey interferometry

    Xinwei Li, Jia-Hao Cao, Qi Liu, Meng Khoon Tey, and Li You
    New Journal of Physics 22.4 (2020): 043005 


  1. High-resolution imaging of Rydberg atoms in optical lattices using an aspheric-lens objective in vacuum

    Chuyang Shen, Cheng Chen, Xiao-Ling Wu, Shen Dong, Yue Cui, Li You and Meng Khoon Tey
    Review of Scientific Instruments 91.6 (2020): 063202arXiv:2002.11906
  1. Collision-Induced Broadband Optical Nonreciprocity

    Chao Liang, Bei Liu, An-Ning Xu, Xin Wen, Cuicui Lu, Keyu Xia, Meng Khoon Tey, Yong-Chun Liu and Li You
    Physical Review Letters 125.12 (2020): 123901 


  1. Double-degenerate Bose-Fermi mixture of strontium and lithium

    Zhu-Xiong Ye, Li-Yang Xie, Zhen Guo, Xiao-Bin Ma, Gao-Ren Wang, Li You and Meng Khoon Tey
    Physical Review A 102.3 (2020): 033307arXiv:2006.15654
  1. Atom-Photon Spin-Exchange Collisions Mediated by Rydberg Dressing

    Fan Yang, Yong-Chun Liu and Li You
    Physical Review Letters 125.14 (2020): 143601arXiv:2003.08709

2019
  1. Quantum Transport of Rydberg Excitons with Synthetic Spin-Exchange Interactions

    Fan Yang, Shuo Yang, and Li You
    Phys. Rev. Lett. 123, 063001 (2019)arXiv:1905.08280
  1. Manipulating photonic quantum states with long-range interactions

    Fan Yang, Yong-Chun Liu, and Li You
    Physical Review A 99.6 (2019): 063803arXiv:1905.06867
  1. Uniaxial dynamical decoupling for an open quantum system

    Qi Yao, Jun Zhang, Xiao-Feng Yi, Li You, and Wenxian Zhang
    Phys. Rev. Lett. 122, 010408 (2019)arXiv:1811.07762
  1. Intracavity-squeezed optomechanical cooling

    Jing-Hui Gan, Yong-Chun Liu, Cuicui Lu, Xiao Wang, Meng Khoon Tey, Li You
    Laser & Photonics Reviews 13.11 (2019) 


  1. Enhancing test precision for local Lorentz-symmetry violation with entanglement

    Lei Li, Xinwei Li, Baocheng Zhang, and Li You
    Phys. Rev. A 99, 042118 (2019) 


  1. Extreme Spin Squeezing from Deep Reinforcement Learning

    Feng Chen, Jun-Jie Chen, Ling-Na Wu, Yong-Chun Liu, and Li You
    Physical Review A 100.4 (2019): 041801.arXiv:1909.12519
  1. Measurement of S-wave Scattering Length between 6Li and 88Sr Atoms Using Interspecies Thermalization in an Optical Dipole Trap

    Xiao-Bin Ma, Zhu-Xiong Ye, Li-Yang Xie, Zhen Guo, Li You and Meng Khoon Tey
    Chinese Physics Letters 36.7 (2019): 73401 


2018
  1. Universal driven critical dynamics across a quantum phase transition in ferromagnetic spinor atomic Bose-Einstein condensates

    Xue Ming, Shuai Yin, and Li You
    Physical Review A 98.1 (2018): 013619arXiv:1805.02174


  2. Beating the classical precision limit with spin-1 Dicke states of more than 10,000 atoms

    Yi-Quan Zou, Ling-Na Wu, Qi Liu, Xin-Yu Luo, Shuai-Feng Guo, Jia-Hao Cao, Meng Khoon Tey, and Li You
    Proceedings of the National Academy of Sciences (2018): 201715105arXiv:1802.10288


  3. Broad Feshbach resonances in ultracold alkali-metal systems

    Cui Yue, Min Deng, Li You, Bo Gao, and Meng Khoon Tey
    Physical Review A 98.4 (2018): 042708arXiv:1808.03917


  4. Resonant spin exchange between heteronuclear atoms assisted by periodic driving

    Chen Jun-Jie, Zhi-Fang Xu, and Li You
    Physical Review A 98.2 (2018): 023601arXiv:1805.02310


  5. Generation of twin-Fock states for precision measurement beyond the standard quantum limit

    Meng-Khoon Tey, and You Li
    ACTA PHYSICA SINICA 67.16 (2018) 


  6. Beating the classical precision limit with spin-1 Dicke state of more than 10,000 atoms

    Yi-Quan Zou, Ling-Na Wu, Qi Liu, Xin-Yu Luo, Shuai-Feng Guo, Jia-Hao Cao, Meng Khoon Tey, and Li You
    Proceedings of the National Academy of Sciences (PNAS/US) 115, 6381 (2018)arXiv:1802.10288


  7. Would quantum entanglement be increased by anti-Unruh effect?

    Li Taotao, Baocheng Zhang, and Li You
    Physical Review D 97.4 (2018): 045005arXiv:1802.07886


  8. Spin-orbit-coupled Bose-Einstein Condensates of Rotating Polar Molecules

    Y. Deng, L. You, and S. Yi
    Phys. Rev. A 97, 053609 (2018)


2017
  1. Observation of Broad d-Wave Feshbach Resonances with a Triplet Structure

    Yue Cui, Chuyang Shen, Min Deng, Shen Dong, Cheng Chen, Rong Lü, Bo Gao, Meng Khoon Tey, and Li You
    Phys. Rev. Lett. 119, 203402 (2017)arXiv:1709.08794

    Editors Suggestion and Viewpoint article "Scattering Atoms Catch the d Wave" by Niels Kjærgaard, Physics 10, 123 (2017). DOI · PDF


  2. Tunable topological phases with fermionic atoms in a one-dimensional flux lattice

    Y. Deng, R. Lü, and L. You
    Phys. Rev. B 96, 144517 (2017)arXiv:1711.00263


  3. Anti-PT symmetry in dissipatively coupled optical systems

    Fan Yang, Yong-Chun Liu, and Li You
    Phys. Rev. A 96, 053845 (2017)


  4. Exotic Topological States with Raman-Induced Spin-Orbit Coupling

    Y. Deng, T. Shi, H. Hu, L. You, and S. Yi
    Phys. Rev. A 95, 023611 (2017)arXiv:1607.05109


  5. Deterministic entanglement generation from driving through quantum phase transitions

    Xin-Yu Luo,Yi-Quan Zou, Ling-Na Wu, Qi Liu, Ming-Fei Han, Meng Khoon Tey, Li You
    Science 355, 620-623 (2017)arxiv: 1702.03120


  6. Infinite volume of noncommutative black hole wrapped by finite surface

    Baocheng Zhang, Li You
    Phys. Lett. B 765, 226 (2017)


  7. Generating topological optical flux lattices for ultracold atoms by modulated Raman and radio-frequency couplings

    Jinlong Yu, Zhi-Fang Xu, Li You
    Phys. Rev. A 95, 013409 (2017)arxiv: 1607.01214


  8. Harmonic trap resonance enhanced synthetic atomic spin-orbit coupling

    Ling-Na Wu, Xin-Yu Luo, Zhi-Fang Xu, Masahito Ueda, Ruquan Wang, Li You
    Sci. Rep. 7, 46756 (2017)arXiv:1607.07005


  9. Transport through a quantum dot coupled to two Majorana bound states

    Qi-Bo Zeng, Shu Chen, Li You, Rong Lü
    Frontiers of Physics 12(4), 1-11 (2017)arxiv: 1510.06558

2016
  1. Observation of broad p-wave Feshbach resonances in ultracold Rb 85-Rb 87 mixtures

    Shen Dong, Yue Cui, Chuyang Shen, Yewei Wu, Meng Khoon Tey, Li You, Bo Gao
    Phys. Rev. A 94, 062702 (2016)arxiv: 1610.01739


  2. Multiscale quantum-defect theory and its application to atomic spectrum

    Haixiang Fu, Mingzhe Li, Meng Khoon Tey, Li You, Bo Gao
    New Journal of Physics, 18(10), 103016 (2016)


  3. Π-Flux Dirac Bosons and Topological Edge Excitations in a Bosonic Chiral p-Wave Superfluid

    Zhi-Fang Xu, Li You, Andreas Hemmerich, and W. Vincent Liu
    Phys. Rev. Lett. 117, 085301 (2016) arxiv: 1602.04555


  4. Dynamical Generation of Topological Magnetic Lattices for Ultracold Atoms

    Jinlong Yu, Zhi-Fang Xu, Rong Lü, and Li You
    Phys. Rev. Lett. 116, 143003 (2016)arxiv: 1610.01739


  5. Using the ground state of an antiferromagnetic spin-1 atomic condensate for Heisenberg-limited metrology

    Ling-Na Wu and Li You
    Phys. Rev. A 93, 033608 (2016)


  6. Non-Hermitian Kitaev chain with complex on-site potentials

    Qi-Bo Zeng, Baogang Zhu, Shu Chen, Li You, and Rong Lü
    Phys. Rev. A 94, 022119 (2016)


  7. Photoionization microscopy for hydrogen atom in parallel electric and magnetic fields

    M. Deng, W. Gao, Rong Lü, J. B. Delos, Li You, and H. P. Liu
    Phys. Rev. A 93, 063411 (2016)  


  8. Tunable atomic spin-orbit coupling synthesized with a modulating gradient magnetic field

    Xin-Yu Luo, Ling-Na Wu, Ji-Yao Chen, Qing Guan, Kui-Yi Gao, Zhi-Fang Xu, Li You, and Ru-Quan Wang
    Sci. Rep. 6, 18983 (2016)arxiv: 1502.07091


  9. Information-carrying Hawking radiation and the number of microstate for a black hole

    Qing-yu Cai, Chang-pu Sun, and L. You
    Nuclear Physics B 905, 327 (2016)

2015
  1. Atomic spin orbit coupling synthesized with gradient magnetic fields

    Xin-Yu Luo, Ling-Na Wu, Ru-Quan Wang, and Li You
    J. Phys.: Conf. Ser. 635, 012013 (2015)


  2. Generating an effective magnetic lattice for ultracold atoms

    Xin-Yu Luo, Ling-Na Wu, Ji-Yao Chen, Rong Lü, Ru-Quan Wang, and Li You
    New Journal of Physics, 17(8), 083048 (2015)


  3. Spin squeezing of the non-Hermitian one-axis twisting model

    Ling-Na Wu, Guang-Ri Jin, and Li You
    Phys. Rev. A 92, 033826 (2015)arxiv: 1504.01984


  4. Persistent atomic spin squeezing at the Heisenberg limit

    Ling-Na Wu, Meng Khoon Tey, and Li You
    Phys. Rev. A 92, 063610 (2015)arxiv: 1601.05239

2014
  1. Ultra-High Efficiency Magnetic Transport of 87Rb Atoms in a Single Chamber Bose-Einstein Condensation Apparatus

    Gao Kui-Yi, Luo Xin-Yu, Jia Feng-Dong, Yu Cheng-Hui, Zhang Feng, Yin Ji-Ping, Xu Lin, You Li, and Wang Ru-Quan
    Chinese Physics Letters, 31(6), 063701 (2014)


  2. Multichannel quantum-defect theory for ion-atom interactions

    Ming Li, Li You, and Bo Gao
    Phys. Rev. A 89, 052704 (2014)arxiv: 1402.3704


  3. Coherent destruction of tunneling and dark Floquet state

    Luo, X., Li, L., You, L., & Wu, B
    New Journal of Physics, 16(1), 013007 (2014)


  4. Correlation, entropy, and information transfer in black hole radiation.

    Baocheng Zhang, Qingyu Cai, Mingsheng Zhan, and Li You
    Chin. Sci. Bull. 59(11), 1057 (2014)arxiv: 1403.7314


  5. Multichannel quantum-defect theory for ion-atom interactions

    Ming Li, Li You, and Bo Gao
    Phys. Rev. A 89, 052704 (2014)arxiv: 1402.3704


  6. Comment on "What the information loss is not"

    Qing-yu Cai, Baocheng Zhang, Ming-sheng Zhan, and Li You
    Hadronic Journal 37,(1) 75-81 (2014)arXiv:1210.2048

2013
  1. Information Conservation Is Fundamental: Recovering the Lost Information in Hawking Radiation

    Baocheng Zhang, Qing-yu Cai, Ming-Sheng Zhan, Li You
    International Journal of Modern Physics D, 22(12), 1341014 (2013) arXiv:1305.6341
    First award in the 2013 Awards for Essays on Gravitation, by GRAVITY RESEARCH FOUNDATION, 2013.


  2. Ultracold collisions in the presence of synthetic spin-orbit coupling

    Hao Duan, Li You, and Bo Gao
    Phys. Rev. A 87(5), 052708 (2013)arxiv: 1305.4750


  3. Atomic spin-orbit coupling synthesized with magnetic-field-gradient pulses

    Zhi-Fang Xu, Li You, Masahito Ueda
    Phys. Rev. A 87, 063634 (2013)arxiv: 1306.2829


  4. Ultracold collisions in the presence of synthetic spin-orbit coupling

    Hao Duan, Li You, and Bo Gao
    Phys. Rev. A 87, 052708 (2013) arxiv: 1305.4750


  5. Towards experimentally testing the paradox of black hole information loss

    Baocheng Zhang, Qing-Yu Cai, Ming-Sheng Zhan, and Li You
    Phys. Rev. D 87, 044006 (2013)arxiv: 1302.1341
    Erratum, Phys. Rev. D 88, 049901(E) (2013)


2012
  1. Symmetry classification of spin-orbit-coupled spinor Bose-Einstein condensates

    Zhi-Fang Xu, Yuki Kawaguchi, Li You, and Masahito Ueda
    Phys. Rev. A 86, 033628 (2012) arxiv: 1203.2005


  2. Quantum spin mixing in a binary mixture of spin-1 atomic condensates

    Zhi-Fang Xu, Dajun Wang, and Li You
    Phys. Rev. A 86, 013632 (2012) arxiv: 1201.5711


  3. Dynamical generation of arbitrary spin-orbit couplings for neutral atoms

    Zhi-Fang Xu, Li You
    Phys. Rev. A 85, 043605 (2012) arxiv: 1110.5705


  4. Multipulse Ramsey-CPT interference fringes for the 87Rb clock transition

    Peter Yun, Yi Zhang, Guobin Liu, Wei Deng, Li You, and Sihong Gu
    Euro. Phys. Lett. 97, 63004 (2012)


2011
  1. Creation of a vortex in a Bose-Einstein condensate by superradiant scattering

    M. E. Taşgın, Ö. E. Müstecaplıog̃lu, and Li You
    Phys. Rev. A 84, 063628 (2011)


  2. Quantum entangled ground states of two spinor Bose-Einstein condensates

    Zhi-Fang Xu, Rong Lü, and Li You
    Phys. Rev. A 84, 063634 (2011)arxiv: 1112.0837


  3. Optimal phase sensitivity of atomic Ramsey interferometers with coherent spin states

    Guang-Ri Jin, Yong-Chun Liu, Li You
    Frontier of Physics, 6, 251 (2011)


  4. Emergent patterns in a spin-orbit-coupled spin-2 Bose-Einstein condensate

    Zhi-Fang Xu, Rong Lü, and Li You
    Phys. Rev. A 83, 053602 (2011)arxiv: 1103.6074


  5. Spin squeezing: transforming one-axis twisting into two-axis twisting

    Yong-Chun Liu, Zhi-Fang Xu, Guang-Ri Jin, and Li You
    Phys. Rev. Lett. 107, 013601 (2011)arxiv: 1105.0466


  6. Noncommutative information is revealed from Hawking radiation as tunneling

    Baocheng Zhang, Qing-Yu Cai, Ming-Sheng Zhan, and Li You
    Euro. Phys. Lett. 94, 20002 (2011)arxiv: 1312.3032


  7. Entropy is conserved in Hawking radiation as tunneling: a revisit of the black hole information loss paradox

    Baocheng Zhang, Qing-Yu Cai, Ming-Sheng Zhan, and Li You
    Annuals of Phys. 326, 350 (2011)arxiv: 1312.3032


  8. An interpretation for the entropy of a black hole

    Baocheng Zhang, Qing-Yu Cai, Ming-Sheng Zhan, and Li You
    Gen. Relativ. Gravit. 43, 797 (2011)arxiv: 1102.5144

2010
  1. Spontaneously axisymmetry-breaking phase in a binary mixture of spinor Bose-Einstein condensates

    Z. F. Xu, J. W. Mei, R. Lü, and L. You
    Phys. Rev. A 82, 053626 (2010)arxiv: 1011.0505


  2. Quantum-limited metrology in the presence of collisional dephasing

    Yong-Chun Liu and Guang-Ri Jin
    Phys. Rev. A 82, 045601 (2010)arxiv: 1011.3197


  3. Atomic number fluctuations in a mixture of two spinor condensates

    Jie Zhang, Zhi-Fang Xu, Li You, and Yunbo Zhang
    Phys. Rev. A 82, 013625 (2010)arxiv: 1007.2568


  4. Quantum pump for countercirculation in a spinor Bose-Einstein condensate

    Zhi-Fang Xu, Peng Zhang, Rong Lü, and Li You
    Phys. Rev. A 81, 053619 (2010)arxiv: 1003.4618


  5. Quantum states of a binary mixture of spinor Bose-Einstein condensates

    Zhi-Fang Xu, Jie Zhang, Yunbo Zhang, and Li You
    Phys. Rev. A 81, 033603 (2010)arxiv: 1001.5335


  6. Localization of spin mixing dynamics in a spin-1 Bose-Einstein condensate

    Wenxian Zhang, Bo Sun, M. S. Chapman, and L. You
    Phys. Rev. A 81, 033602 (2010) 


Previous Publications
Li You (Before 2010)