管习文 博士, 研究员, 博士生导师
研究部门:可积系统研究组,理论与交叉研究部,中科院精密测量科学与技术创新研究院
地 址:湖北武汉武昌区小洪山西30号中科院精密测量科学与技术创新研究院M楼
邮 编:430071
办 公 室:M楼1409室
办公电话:027-87198085
Email :xwe105@wipm.ac.cn
个人主页:http://mp.apm.ac.cn/xwguan
个人简介:
管习文,1986年7月本科毕业于曲阜师范大学物理系,在青岛技术学院从事教学工作9年后,1995年考取吉林大学博士,并于1998年在吉林大学物理学院取得博士学位,随后到2002年期间在德国和巴西从事博士后研究。2003-2009年期间在澳大利亚国立大学物理与工程研究院任研究员,2009-2013年任高级研究员,2012年10月在中科院武汉物理与数学研究所任研究员(二级)。他担任国家科技部重大科学研究计划项目的首席科学家和多项国家自然科学基金重点项目主持人,同时也是美国哈佛大学、洛斯阿拉莫斯国家实验室等世界一流研究机构的高级访问学者, 清华大学高等研究院客座教授,香港中文大学杨振宁访问学人。自2020年1月担任年英国《Journal of Physics A》的编委(Editor Board),2023年起担任执行编委(Executive Editorial Board)。他获得精密测量研究院4次科技突破奖,2022年获得杰出人才奖及中国科学院优秀博士导师称号。2024年被美国物理学会选为会士,并获得湖北省自然科学一等奖获得者。
管习文长期从事冷原子少体和多体物理系统和自旋系统的严格解研究,取得了一系列在国际上颇具影响力的研究成果。 他的多项理论预言已被《科学》、《自然》、《Physical Review Letters》等重要期刊上的实验文章证实。至今发表150多篇SCI论文,包括世界顶尖期刊《Science》、《Review of Modern Physics》、《Report on Progress in Physics》、《Advance in Physics》、《National Science Review》、《Nature》子刊、《Physical Review Letters》等。
研究方向:
量子严格可解模型和统计物理;超冷原子体系中的量子临界现象和量子流体特性;
自旋体系和电子强相互作用体系中的磁性及热力学;量子多体纠缠、量子关联特性和量子精密测量理论
受教育和工作经历:
2012年10月- ,中国科学院精密测量科学与技术创新研究院(原武汉物理与数学研究所),研究员。
2012年01月- ,清华大学高等研究院,客座教授。
2010年02月-2010年05月,美国Ohio州立大学物理系,高级访问学者。
2009年04月-2010年05月,日本东京大学固体物理研究所,高级访问学者。
2009年01月-2012年10月,澳大利亚国立大学物理与工程研究院,高级研究员。
2003年02月-2009年01月,澳大利亚国立大学物理与工程研究院,研究员。
2001年12月-2002年01月,澳大利亚昆士兰大学数学系,访问学者。
2000年04月-2003年02月,巴西Rio Grand do Sul联邦大学物理系,研究员。
1999年12月-2000年04月,德国Chemritz工业大学物理系,访问学者。
1999年01月-1999年12月,巴西Sao Carlos联邦大学物理系,博士后。
1998年07月-1999年01月,德国Chemritz工业大学物理系,访问学者。
1995年09月-1998年07月,吉林大学,博士。
1992年10月-1995年09月,山东青岛技术学院基础部,副教授。
1989年09月-1992年07月,四川大学,硕士(在职)。
1986年07月-1992年10月,山东青岛技术学院基础部,助教。
1982年09月-1986年07月,山东曲阜师范大学,本科。
亮点工作:
- He, in collaboration with Murray Batchelor and Chaohong Lee, published a review article [Rev. Mod. Phys. 85, 1633 (2013) (58 pages)] which views the theoretical and experimental developments for interacting fermions in 1D. It shows that exact results obtained for Bethe ansatz integrable models that enable study of a wide range of quantum many-body phenomena driven by dynamical interactions, quantum statistics and magnetic fields, including the Tomonaga-Luttinger liquids, spin-charge separation, FFLO-like pair correlations, quantum criticality and scaling, polarons, and few-body physics of trimer states (trions) as well as experiments of trapped Fermi gases.
- The work "Guan, et. al., Phys. Rev. B 76, 085120 (2007)" predicted the novel quantum phase diagram and ground properties for the Yang-Gaudin model which was later confirmed by the experimental group led by R. Hulet at Rice University [Nature 467, 567 (2010)].
- In 2005, he (with Batchelor et al., Journal of Statistical Mechanics (2005) L10001) theoretically proved the existence of the novel super Tonks-Girardeau (TG) gas in a 1D Bose gas which was confirmed in the remarkable experiments with ultracold Cesium atoms by E. Haller et al. in Science 325, 1224 (2009) and Kao et al. Science 371, 296 (2021).
- He with the collaborators from the experimental group at University of Science and Technology of China [Phys. Rev. let. 119, 165701 (2017)] for the first time observed quantum scaling laws and Luttinger liquid correlations through the 1D interacting Bose gas of ultracold atoms. This paper was elected as Editor's suggestion and the Viewpoint on the importance of our work was given by Professor Thierry Giamarchi at (https://physics.aps.org/articles/v10/115). The European Physical Society Physicsworld published a highlight on this paper "Atoms and Josephson junctions simulate 1D quantum liquid".
- He with collaborators developed both phenomenological and Bethe ansatz technical approaches to multicomponent Bose and Fermi gases, including universal thermodynamics [Phys. Rev. Lett. 103 (2009) 140404)], quantum liquids [Phys. Rev. Lett. 111, 130401 (2013)], critical correlation Nat. Commun. 5, 5140 (2014, spin coherent and incoherent liquid [Phys. Rev. Lett. 125, 190401 (2020)], SU(N) Fermi gases [Physical Review Letters 100 (2008) 200401, Phys. Rev. A, 85, 033633 (2012), J. Phys. A, 39, 1073 (2006), J. Phys. A 49 (2016) 174005]. The work on SU(N) Fermi gases has provided useful theoretical input for recent experiment in Nat. Phys. 10,198 (2014) and Phys. Rev. X 10, 041053 (2020).
- His collaborative work "Adv. Phys. 56,465-543 (2007), 78 pages ", gave a major review of the mathematical machinery of exactly solved models in statistical mechanics and applied exact high-temperature expansion approach to the physics of spin ladder compounds. The theoretical predictions were shown to be in very good agreement with experimental results for many known spin ladder compounds with strong rung coupling and for gapped spin chain materials with strong anisotropies.
- In his recent paper "Phys. Rev. B 96, 220401(R) (2017)", he with collaborators analytically calculated scaling functions of thermal and magnetic properties of 1D Heisenberg chains, providing a rigorous understanding of the quantum criticality of spinons. This prediction was experimentally confirmed shortly in Sci. Adv. 3, eaao3773 (2017) and quickly received many citations from the top journals including Nature, Phys. Rep., Phys. Rev. Lett., etc.
- In 2006, he with Batchelor, [Phy. Rev. Lett. 96, 210402 (2006), Phys. Rev. B 74, 195121 (2006)], initiated a highly successful project on interacting anyons in 1D. They proved that 1D interacting anionic gases, including interacting bosons and fermions, are equivalent to ideal particles obeying Haldane fractional statistics. This provided deep insight towards understanding quantum statistics and dynamics in many-body physics and led to further developments by theorists in many countries (USA, France, Germany, UK, China, etc). He with his collaborators recently also found that the non-mutual Haldane fractional statistics naturally occurs at quantum critical regime of 1D, 2D, and 3D interacting Bose gases. This builds up a general connection between the Haldane fractional statistics and particle-hole symmetry breaking.
发表文章:
138): Hai-Long Shi, Xi-Wen Guan, and Jing Yang,
Universal Shot-Noise Limit for Quantum Metrology with Local Hamiltonians
Phys. Rev. Lett. 132, 100803 (2024).
137):Jia-Jia Luo, Han Pu, and Xi-Wen Guan
Exact results of the one-dimensional repulsive Hubbard model
Rep. Prog. Phys. 87, 117601 (2024).
136): Zhe-Hao Zhang, Yuzhu Jiang, Hai-Qing Lin, and Xi-Wen Guan
Microscopic origin of the quantum supersonic phenomenon in one dimension
Phys. Rev. A 110, 023329 (2024)
135):Zhe-Hao Zhang, Yi-Cong Yu, Yang-Yang Chen, Song Cheng, and Xi-Wen Guan,
Monte Carlo Bethe-ansatz approach for the study of the Lieb-Liniger model
Phys. Rev. A 109, 033320 (2024)
134): Qing-Kun Wan, Hai-Long Shi, and Xi-Wen Guan,
Quantum-enhanced metrology in cavity magnonics
Phys. Rev. B 109, L041301 (2024).
133):Jia-Jia Luo, Han Pu, and Xi-Wen Guan,
Spin-incoherent liquid and interaction-driven criticality in the one-dimensional Hubbard model
Phys. Rev. B 107, L201103 (2023)
132):Enguo Guan, Gang Wang, Xi-Wen Guan, and Xiaoming Cai,
Reentrant localization and mobility edges in a spinful Aubry-André-Harper model with a non-Abelian potential
Phys. Rev. A 108, 033305 (2023)
131):Run-Tian Li, Song Cheng, Yang-Yang Chen, Xi-Wen Guan,
Exact results of dynamical structure factor of Lieb-Liniger model
J. Phys. A: Math. Theor. 56, 335204 (2023)
130):Ruwan Senaratne, Danyel Cavazos-Cavazos, Sheng Wang, Feng He, Ya-Ting Chang, Aashish Kafle, Han Pu, Xi-Wen Guan, and Randall G. Hulet,
Spin-charge separation in a 1D Fermi gas with tunable interactions
Science 376, 1305 (2022)
129):Xi-Wen Guan, and Hai-Qing Lin, A Festschrift in Honor of the C N Yang Centenary: Yang-Gaudin Model: A Paradigm of Many-Body Physics, A Festschrift in Honor of the C N Yang Centenary, Page 185-206, World Scientific Publishing Co. Pte. Ltd. 2022
128):Zhen-Sheng Yuan, Xi-Wen Guan, and Jian-Wei Pan, A Festschrift in Honor of the C N Yang Centenary: Legacy of Yang-Yang Thermodynamics , A Festschrift in Honor of the C N Yang Centenary, Page 263-280, World Scientific Publishing Co. Pte. Ltd. 2022
127):Xi-Wen Guan, Peng He,
New trends in quantum integrability: Recent experiments with ultracold atoms
Rep. Prog. Phys. 85, 114001 (2022)
126):Ning Wu, Hosho Katsura, Sheng-Wen Li, Xiaoming Cai, and Xi-Wen Guan,
Exact solutions of few-magnon problems in the spin-S periodic XXZ chain
Phys. Rev. B 105, 064419 (2022)
125):Wen-Bin He, Stefano Chesi, H. -Q. Lin, Xi-Wen Guan,
Quantum dynamics of Gaudin magnets
Commun. Theor. Phys. 74, 095102 (2022)
124):Jia-Feng Pan, Jia-Jia Luo, Xi-Wen Guan,
Excitation Spectra of one-dimensional spin-1/2 Fermi gas with an attraction
Commun. Theor. Phys. 74, 125802 (2022)
123):Xiaoming Cai, Hongting Yang, Hai-Long Shi, Chaohong Lee, Natan Andrei, and Xi-Wen Guan,
Multiparticle Quantum Walks and Fisher Information in One-Dimensional Lattices
Phys. Rev. Lett. 127, 100406(2021).
122):Li Peng, Wen-Bin He, Stefano Chesi, Hai-Qing Lin, and Xi-Wen Guan,
Lower and upper bounds of quantum battery power in multiple central spin systems
Phys. Rev. A 103, 052220 (2021).
121):Feng He, Yu-Zhu Jiang, Hai-Qing Lin, Randall G. Hulet, Han Pu, Xi-Wen Guan,
Emergence and disruption of spin-charge separation in one-dimensional repulsive fermions
Phys.Rev. Lett. 125, 190401 (2020)
120):Ning Wu, Xi-Wen Guan, Jon Links,
Separable and entangled states in the high-spin XX central spin model
Phys. Rev. B 101, 155145 (2020)
119):Yi-Cong Yu, Shi-Zhong Zhang and Xi-Wen Guan,
Gruneisen Parameters: origin, identity and quantum refrigeration
Phys. Rev. Res. 2, 043066 (2020)
118):Xibo Zhang, Yang-Yang Chen, Longxiang Liu, Youjin Deng, and Xi-Wen Guan,
Interactioninduced particle-hole symmetry breaking and fractional exclusion statistics
submitted to National Science Review, 2020
117):Sheng Wang, Xiangguo Yin, Yang-Yang Chen, Yunbo Zhang, Xi-Wen Guan,
Emergent ballistic transport of Bose-Fermi mixtures in one dimension
Journal of Physics A 53, 464002 (2020)
116):Li Peng, Yi-Cong Yu and Xi-Wen Guan,
Gruneisen parameters for Lieb-Liniger and Yang-Gaudin models
Phys. Rev. B 100, 245435 (2019)
115):Yang-Yang Chen, Gentaro Watanabe, Yi-Cong Yu, Xi-Wen Guan, Adolfo del Campo,
An Interaction-Driven Many-Particle Quantum Heat Engine: Universal Behavior
NPJQuantum Information, 5, 88 (2019)
114):Haiyuan Zou, Erhai Zhao, Xi-Wen Guan, and W. Vincent Liu,
Exactly Solvable Points and Symmetry Protected Topological Phases of Quantum Spins on a Zig-Zag Lattice
Phys. Rev. Lett. 122, 180401 (2019)
113):Wen-Bin He, Stefano Chesi, Hai-Qing Lin, Xi-Wen Guan,
Exact quantum dynamics of XXZ central spin problems
Phys. Rev. B 99, 174308 (2019)
112):Wen-Bin He, and Xi-Wen Guan
Exact Entanglement Dynamics in Three Interacting Qubits
Chin. Phys. Lett. 35, 110302 (2018)
111):I. Rafael Nepomechie, Xi-Wen Guan,
The spin-s homogeneous central spin model: exact spectrum and dynamics
J. Stat. Mech. /JSTAT/2018/103104
110):E. J. K. P. Nandani, Xi-Wen Guan,
Momentum distribution and non-local high order correlation functions of 1D strongly interacting Bose gas
Chin. Phys. B Vol. 27, No. 7 (2018) 070306
109):Xiangguo Yin, Xi-Wen Guan, Yunbo Zhang, Haibin Su, and Shizhong Zhang,
Momentum distribution and contacts of one-dimensional spinless Fermi gases with an attractive p-wave interaction
Phys. Rev. A 98, 023605 (2018)
108):B. M. Henson, Xuguang Yue, S. S. Hodgesgman, D. K. Shin, L. A. Smirnov, E. A. Ostrovskaya, X. W. Guan, A. G. Truscott,
Bogoliubov-Cherenkov Radiation in an Atom Laser
Phys. Rev. A 97, 063601 (2018)
107):Song Cheng, Yi-Cong Yu, Murray T Batchelor, Xi-Wen Guan,
Universal thermodynamics of the one-dimensional attractive Hubbard model
Phys. Rev. B 97, 125145 (2018)
106):Song Cheng, Yi-Cong Yu, Murray T Batchelor, Xi-Wen Guan,
FFLO correlation and free fluids in the one-dimensional attractive Hubbard model
Phys. Rev. B 97, 121111(R) (2018)
105):Song Cheng, Yu-Zhu Jiang, Yi-Cong Yu, Murray T Batchelor, Xi-Wen Guan,
Asymptotic correlation functions and FFLO signature for the one-dimensional attractive Hubbard model
104): Bing Yang, Yang-Yang Chen, Yong-Guang Zheng, Hui Sun, Han-Ning Dai, Xi-Wen Guan, Zhen-Sheng Yuan, and Jian-Wei Pan
Quantum criticality and the Tomonaga-Luttinger liquid in one-dimensional Bose gases
Phys. Rev. Lett. 119, 165701(2017)
103):Feng He, Yuzhu Jiang, Yi-Cong Yu, H.-Q. Lin, and Xi-Wen Guan
Quantum criticality of spinons
102):Yi-Cong Yu, Xi-Wen Guan,
A Unified Approach to the Thermodynamics and Quantum Scaling Functions of One-Dimensional Strongly Attractive SU(w) Fermi Gases
Chin. Phys. Lett. 34, 070501(2017)
101):Xi-Wen Guan and Yang-Yang Chen
Yang-Yang equilibrium statistical mechanics: A brilliant method
Int. J. Mod. Phys. B Vol. 30, No. 9 (2016) 1630008.
100):Wen-Bin He, Yang-Yang Chen, Shizhong Zhang, Xi-Wen Guan
Universal Properties of Fermi Gases in One-dimension
Phys. Rev. A 94, 031604(R) (2016).
99):Yuzhu Jiang, D.V. Kurlov, Xi-Wen Guan, F. Schreck, G.V. Shlyapnikov
Itinerant fer- romagnetism in 1D two-component Fermi gases
Phys. Rev. A 94, 011601(R) (2016)
98):Yi-Cong Yu, Yang-Yang Chen, Hai-Qing Lin, Rudolf A. Roemer, Xi-Wen Guan
Dimen- sionless ratios: characteristics of quantum liquids and their phase transitions
Phys. Rev. B 94, 195129 (2016)
97):EJKP Nandani, Rudolf A. Roemer, Shina Tan, Xi-Wen Guan
High order local and nonlocal correlations for 1D strongly interacting Bose gas
New J. Phys. 18, 055014 (2016)
96):Lijun Yang, Xiwen Guan, Xiaoling Cui
Engineering quantum magnetism in one-dimensional trapped Fermi gases with p-wave interactions
Phys. Rev. A 93, 051605(R) (2016)
95):Yuzhu Jiang, Peng He, Xi-Wen Guan
Universal low energy physics in one-dimensional multicompnent Fermi gases with a strongly repulsive δ-function interaction
J. Phys. A: Math. Theor. 49, 174005 (2016)
94): Jiang Yu-Zhu, Chen Yang-Yang, Guan Xi-Wen
Understanding many-body physics in one dimension from the Lieb–Liniger model
Chin. Phys. B 24, 050311(2015)
93):Yuzhu Jiang , Xiwen Guan , Junpeng Cao , Hai-Qing Lin
Exotic pairing in 1D spin-3/2 atomic gases with SO(4) symmetry
Nuclear Physics B 895, 206–232(2015).
92):P. He, Y.-Z. Jiang, X.-W. Guan and J. He
Quantum Criticality of one-dimensional multicomponent Fermi Gas with Strongly Attractive Interaction
91):X. Qin, Y. Ke, X.W. Guan, Z. Li, N. Andrei, and C. Lee
Quantum Walks of Two Interacting Particles in One Dimension
Phys. Rev. A, 90, 062301(2014)
90):Y.-Y. Chen, Y.-Z. Jiang, X.-W. Guan & Qi Zhou
Critical behaviours of contact near phase transitions
Nature Communications 5,5140 (2014)
89):Xiwen Guan
Critical phenomena in one dimension from a Bethe ansatz perspective
International Journal of Modern Physics B 28,1430015(2014)
87): Honghua Zhong, Qiongtao Xie, Xiwen Guan, Murray T. Batchelor, Kelin Gao, Chaohong Lee
Analytical energy spectrum for hybrid mechanical systems
arXiv:1311.1588, J. Phys. A: Math. Theor. 47 (2014) 045301
86): X.-W.Guan, M. T. Batchelor, C.-H. Lee
Fermi gases in one dimension: From Bethe Ansatz to experiments
arXiv:1301.6446,Rev. Mod. Phys. 85, 1633(2013)
85): X.-W. Guan, X.-G. Yin, A. Foerster, M. T. Batchelor, C.-H. Lee, and H.-Q. Lin
Wilson Ratio of Fermi Gases in One Dimension
Phys. Rev. Lett. 111, 130401 (2013)
84): M.-S. Wang, J.-H. Huang, C.-H. Lee, X.-G. Yin, X.-W. Guan, and M. T. Batchelor
Universal local pair correlations of Lieb-Liniger bosons at quantum criticality
Phys. Rev. A 87, 043634 (2013)
83): Ran Qi and Xiwen Guan
Many-body properties of quasi–one-dimensional boson gas across a narrow CIR
Europhysics Letters, 101 40002 (2013) arXiv:1210.2596
82): J. Y. Lee, X. W. Guan, A. del Campo, and M. T. Batchelor
Asymptotic Bethe-ansatz solution for one-dimensional SU(2) spinor bosons with finite-range Gaussian interactions
Phys. Rev. A 85, 013629 (2012)
81): Xi-Wen Guan, Zhong-Qi Ma, and Brendan Wilson
One-dimensional multicomponent fermions with δ-function interaction in strong- and weak-coupling limits: κ-component Fermi gas
Phys. Rev. A 85, 033633 (2012)
80): Xi-Wen Guan, and Zhong-Qi Ma
One-dimensional multicomponent fermions with δ-function interaction in strong- and weak-coupling limits: Two-component Fermi gas
Phys. Rev. A 85, 033632 (2012)
79): Xi-Wen Guan
Polaron, molecule and pairing in one-dimensional spin-1/2 Fermi gas with an attractive Delta-function interaction
Frontiers of Physics 7, 8 (2012)
78): Xiangguo Yin, Xi-Wen Guan, Yunbo Zhang, and Shu Chen
Quantum criticality of a one-dimensional Bose-Fermi mixture
Phys. Rev. A 85, 013608 (2012)
77): C. C. N. Kuhn, X. W. Guan, A. Foerster, and M. T. Batchelor
Quantum criticality of spin-1 bosons in a one-dimensional harmonic trap
Phys. Rev. A 86, 011605(R) (2012)
76): J. Y. Lee, X. W. Guan, K. Sakai, and M. T. Batchelor
Thermodynamics, spin-charge separation, and correlation functions of spin-1/2 fermions with repulsive interaction
Phys. Rev. B 85, 085414 (2012)
75): C. C. N. Kuhn, X. W. Guan, A. Foerster, and M. T. Batchelor
Universality class of quantum criticality for strongly repulsive spin-1 bosons with antiferromagnetic spin-exchange interaction
Phys. Rev. A 85, 043606 (2012)
74): J.Y. Lee, and X.W. Guan
Asymptotic correlation functions and FFLO signature for the one-dimensional attractive spin-1/2 Fermi gas
Nuclear Physics B 853 , 125 (2011)
73): Xiangguo Yin, Xi-Wen Guan, M. T. Batchelor, and Shu Chen
Effective super Tonks-Girardeau gases as ground states of strongly attractive multicomponent fermions
Phys. Rev. A 83, 013602 (2011)
72): X-W Guan and M T Batchelor
Polylogs, thermodynamics and scaling functions of one-dimensional quantum many-body systems
J. Phys. A: Math. Theor. 44 102001 (2011)
71): Xiangguo Yin, Xi-Wen Guan, Shu Chen, and Murray T. Batchelor
Quantum criticality and universal scaling of strongly attractive spin-imbalanced Fermi gases in a one-dimensional harmonic trap
Phys. Rev. A 84, 011602(R) (2011)
70): Xi-wen Guan, and Tin-Lun Ho
Quantum criticality of a one-dimensional attractive Fermi gas
Phys. Rev. A 84, 023616 (2011)
69): Peng He, Jen Yee Lee, Xiwen Guan, Murray T Batchelor and Yupeng Wang
Thermodynamics and spin-charge separation of one-dimensional strongly repulsive three-component fermions
J. Phys. A: Math. Theor. 44 405005 (2011)
68):J Y Lee, X W Guan and M T Batchelor
Yang–Yang method for the thermodynamics of one-dimensional multi-component interacting fermions
J. Phys. A: Math. Theor. 44 165002 (2011)
67): Peng He, Xiangguo Yin, Xiwen Guan, Murray T. Batchelor, and Yupeng Wang
Analytical thermodynamics of a strongly attractive three-component Fermi gas in one dimension
Phys. Rev. A 82, 053633 (2010)
66): M T Batchelor, A Foerster, X-W Guan and C C N Kuhn
Exactly solvable models and ultracold Fermi gases
65): Shu Chen, Xi-Wen Guan, Xiangguo Yin, Liming Guan, and M. T. Batchelor
Realization of effective super Tonks-Girardeau gases via strongly attractive one-dimensional Fermi gases
Phys. Rev. A 81, 031608(R) (2010)
64): Shu Chen, Liming Guan, Xiangguo Yin, Yajiang Hao, and Xi-Wen Guan
Transition from a Tonks-Girardeau gas to a super-Tonks-Girardeau gas as an exact many-body dynamics problem
Phys. Rev. A 81, 031609(R) (2010)
63): X. W. Guan, J.-Y. Lee, M. T. Batchelor, X.-G. Yin, and Shu Chen
Universal Tomonaga-Luttinger liquid phases in one-dimensional strongly attractive SU(N) fermionic cold atoms
Phys. Rev. A 82, 021606(R) (2010)
62): Erhai Zhao, Xi-Wen Guan, W. Vincent Liu1, M. T. Batchelor, and Masaki Oshikawa
Analytic Thermodynamics and Thermometry of Gaudin-Yang Fermi Gases
Phys. Rev. Lett. 103, 140404 (2009)
61): Yajiang Hao, Yunbo Zhang, Xi-Wen Guan, and Shu Chen
Ground-state properties of interacting two-component Bose gases in a hard-wall trap
Phys. Rev. A 79, 033607 (2009)
60): J-S He, A Foerster, X W Guan and M T Batchelor
Magnetism and quantum phase transitions in spin-1/2 attractive fermions with polarization
59): J. Y. Lee, X. W. Guan, M. T. Batchelor, and C. Lee
Magnetism of one-dimensional strongly repulsive spin-1 bosons with antiferromagnetic spin-exchange interaction
Phys. Rev. A 80, 063625 (2009)
58): X. W. Guan, M. T. Batchelor, C. Lee and J. Y. Lee
Unified description of pairing, trionic and quarteting states for one-dimensional SU(4) attractive fermions
Europhysics Letters 86 50003 (2009)
57): X.-W. Guan, M. T. Batchelor, and J.-Y. Lee
Magnetic ordering and quantum statistical effects in strongly repulsive Fermi-Fermi and Bose-Fermi mixtures
Phys. Rev. A 78, 023621 (2008)
56): X. W. Guan, M. T. Batchelor, C. Lee, and H.-Q. Zhou
Magnetic Phase Transitions in One-Dimensional Strongly Attractive Three-Component Ultracold Fermions
Phys. Rev. Lett. 100, 200401 (2008)
55): M T Batchelor, X-W Guan and A Kundu
One-dimensional anyons with competing δ-function and derivative δ-function potentials
J. Phys. A: Math. Theor. 41 352002 (2008)
54): M T Batchelor, A Foerster, X-W Guan, J Links and H-Q Zhou
The quantum inverse scattering method with anyonic grading
J. Phys. A: Math. Theor. 41 465201 (2008)
53): M T Batchelor, and X-W Guan
Fermionization and fractional statistics in the strongly interacting one-dimensional Bose gas
Laser Physics Letters 4, 77 (2007)
52): Xi-Wen Guan, Murray T. Batchelor, and Minoru Takahashi
Ferromagnetic behavior in the strongly interacting two-component Bose gas
Phys. Rev. A 76, 043617 (2007)
51): M. T. Batchelor, X. W. Guan, N. Oelkers & Z. Tsuboi
Integrable models and quantum spin ladders: comparison between theory and experiment for the strong coupling ladder compounds
Advances in Physics 56, 465 (2007)
50): X. W. Guan, M. T. Batchelor, C. Lee, and M. Bortz
Phase transitions and pairing signature in strongly attractive Fermi atomic gases
Phys. Rev. B 76, 085120 (2007)
49): M T Batchelor, X-W Guan and J-S He
The Bethe ansatz for 1D interacting anyons
48): N Oelkers, M T Batchelor, M Bortz and X-W Guan
Bethe ansatz study of one-dimensional Bose and Fermi gases with periodic and hard wall boundary conditions
J. Phys. A: Math. Gen. 39 1073 (2006)
47): M T Batchelor, M Bortz, X W Guan and N Oelkers
Collective dispersion relations for the one-dimensional interacting two-component Bose and Fermi gases
46): M T Batchelor, M Bortz, X W Guan and N Oelkers
Exact results for the 1D interacting Fermi gas with arbitrary polarization
J. Phys.: Conf. Ser. 42 5 (2006)
45): M. T. Batchelor and X.-W. Guan
Generalized exclusion statistics and degenerate signature of strongly interacting anyons
Phys. Rev. B 74, 195121 (2006)
44): M. T. Batchelor, X.-W. Guan, and N. Oelkers
One-Dimensional Interacting Anyon Gas: Low-Energy Properties and Haldane Exclusion Statistics
Phys. Rev. Lett. 96, 210402 (2006)
43): M. T. Batchelor, X.-W. Guan, and N. Oelkers
Theoretical Analysis of the Double Spin Chain Compound KCuCl3
Differential Geometry and Physics 10, 133 (2005)
42): M T Batchelor, M Bortz, X W Guan and N Oelkers
Evidence for the super Tonks–Girardeau gas
41): M. T. Batchelor, M. Bortz, X. W. Guan, and N. Oelkers
Exact results for the one-dimensional mixed boson-fermion interacting gas
Phys. Rev. A 72, 061603(R) (2005)
40): M T Batchelor, X W Guan, N Oelkers and C Lee
The 1D interacting Bose gas in a hard wall box
J. Phys. A: Math. Gen. 38 7787 (2005)
39): M T Batchelor, X W Guan and J B McGuire
Ground state of 1D bosons with delta interaction: link to the BCS model
J. Phys. A: Math. Gen. 37 L497 (2004)
38): Zu-Jian Ying, Angela Foerster, Xi-Wen Guan, Bin Chen, Itzhak Roditi
Magnetization plateau and quantum phase transitions in a spin-orbital model
EUROPEAN PHYSICAL JOURNAL B 4 , 535 (2004)
37): M. T. Batchelor, X.-W. Guan, N. Oelkers, Z.-J. Ying
Quantum Phase Diagram of an Exactly Solved Mixed Spin Ladder
JOURNAL OF STATISTICAL PHYSICS 116, 571 (2004)
36): M T Batchelor, X-W Guan, N Oelkers and A Foerster
Thermal and magnetic properties of integrable spin-1 and spin-3/2 chains with applications to real compounds
35): M. T. Batchelor, Xi-Wen Guan, and Norman Oelkers
Thermal and magnetic properties of spin-1 magnetic chain compounds with large single-ion and in-plane anisotropies
Phys. Rev. B 70, 184408 (2004)
34): Huan-Qiang Zhou, Jon Links, Ross H McKenzie and Xi-Wen Guan
Exact results for a tunnel-coupled pair of trapped Bose–Einstein condensates
J. Phys. A: Math. Gen. 36 L113 (2003)
33): Murray T. Batchelor, Xi-Wen Guan, Norman Oelkers, Kazumitsu Sakai, Zengo Tsuboi, and Angela Foerster
Exact Results for the Thermal and Magnetic Properties of Strong Coupling Ladder Compounds
Phys. Rev. Lett. 91, 217202 (2003)
32): Arlei Prestes Tonel, Angela Foerster, Xi-Wen Guan and Jon Links
Integrable impurity spin ladder systems
J. Phys. A: Math. Gen. 36 359 (2003)
31): M T Batchelor, X-W Guan, A Foerster and H-Q Zhou
Note on the thermodynamic Bethe ansatz approach to the quantum phase diagram of the strong coupling ladder compounds
30): M.T. Batchelor, X.-W. Guan, A. Foerster, A.P. Tonel, H.-Q. Zhou
Thermodynamic properties of an integrable quantum spin ladder with boundary impurities
Nuclear Physics B 669, 385 (2003)
29): X.-W. Guan, A. Foerster, J. Links, H.-Q. Zhou
Integrability and exact solution for coupled BCS systems associated with the su(4) Lie algebra
Nuclear Physics B 642, 501 (2002)
28): X.-W. Guan, A. Foerster, J. Links, H.-Q Zhou, A. Prestes Tonel, and R. H. McKenzie
Integrable variant of the one-dimensional Hubbard model
J. Math. Phys. 43, 3445 (2002)
27): X.-W. Guan, A. Foerster, U. Grimm, R.A. Römer, , M. Schreiber
A supersymmetric Uq[osp(2|2)]-extended Hubbard model with boundary fields
Nuclear Physics B 618, 650 (2001)
26): A. Foerster, X.-W. Guan, J. Linksc, I. Roditi, H.-Q. Zhou
Exact solution for the Bariev model with boundary fields
Nuclear Physics B 596, 525 (2001)
25): A. Foerster, M.D. Gould, X.-W. Guan, I. Roditi, H.-Q. Zhou
Integrable open boundary conditions for the Bariev model of three coupled XY spin chains
Nuclear Physics B 612, 461(2001)
24): X-W Guan, A Foerster, J Links and H-Q Zhou
Jordan–Wigner fermionization of the one-dimensional Bariev model of three coupled XY chains
J. Phys. A: Math. Gen. 34 9357 (2001)
23): X-W Guan
Algebraic Bethe ansatz for the one-dimensional Hubbard model with open boundaries
J. Phys. A: Math. Gen. 33 5391 (2000)
22): Xiao-Man Wang, Heng Fan and Xi-Wen Guan
Bethe Ansatz for the One-Dimensional Small-Polaron Model with Open Boundary Conditions
J. Phys. Soc. Jpn. 69, 251 (2000)
21): M.J. Martins, X.-W. Guan
Integrability of the D2n vertex models with open boundary
Nuclear Physics B 583, 721 (2000)
20): Xi-Wen Guan, Uwe Grimm, Rudolf A Römer and Michael Schreiber
Integrable impurities for an open fermion chain
J. Phys. A: Math. Gen. 33 3863 (2000)
19): Xi-Wen Guan, Uwe Grimm, Rudolf A Römer and Michael Schreiber
Integrable impurities for an open fermion chain
J. Phys. A: Math. Gen. 33 3863 (2000)
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