姓名:罗洪刚
人才计划 教授
所在教研室:热学基础
电子邮箱:luohg@lzu.edu.cn
招生专业: 理论物理 计算物理
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个人简历
罗洪刚，男，教授、博导。国家自然科学基金委“****基金”获得者（2014-2017）；入选教育部“****”****（2015-2019）；教育部高等学校物理学类专业教学指导委员会西北地区工作委员会委员（2018-2022）；2019年入选国家百千****才工程；特聘为“北航物理学科战略咨询委员会”委员（2019-2024）；2019年担任中国物理学会第十二届理事会常务理事；中国物理学会秋季学术会议组委会委员（2020-2024）；中国物理学会凝聚态理论与统计物理专业委员会委员；J. Phys.: Condens. Matter 杂志编委；《理论物理通讯》编委；中国科学院物理研究所学术委员会委员；中国科学院理论物理研究所学术委员会委员；北京计算科学研究中心客座教授。2019年聘为兰州大学第一届理事会理事；兰州大学校友总会物理学院分会理事（2019-2024）。2017年-至今，担任兰州大学物理科学与技术学院院长职务。教育经历：1) 1995.09–1999.06, 兰州大学-德国吉森大学联合培养, 粒子物理与核物理, 博士, 导师: 王顺金、W. Cassing2) 1992.09–1995.06, 兰州大学, 理论物理, 硕士, 导师: 杨孔庆3) 1988.09–1992.06, 兰州大学, 理论物理, 学士科研与工作经历：1) 2006.08-至今, 兰州大学, 物理科学与技术学院, 教授2) 2011.01-至今, 北京计算科学研究中心, 模拟实验室, 客座教授3) 2003.11-2009.12, 中科院理论物理研究所, 兼职副研究员4) 2002.01-2006.07, 兰州大学, 物理科学与技术学院, 副教授5) 2001.10-2003.09, 中科院理论物理研究所博士后,合作导师：向涛6) 2000.07-2001.12, 兰州大学, 物理科学与技术学院, 讲师7) 1999.07-2001.06, 中科院近代物理研究所博士后,合作导师：刘建业8) 1999.07-2000.06, 兰州大学, 物理科学与技术学院, 助教从事凝聚态理论研究工作，在强关联电子系统、高温超导、介观输运，非线性系统及数值计算方法的发展及应用等方面发表论文近150余篇。主持完成国家自然科学基金(****、面上、青年等）项目6项，参与完成国家自然科学基金重点项目2项。目前主持国家自然科学基金面上项目1项、重点项目1项。Web of Science ResearcherID : A-5842-2013
研究方向
主要研究方向：1）强关联电子系统与高温超导 2）介观输运与动力学控制 3）密度矩阵重正化群算法与应用 4）量子信息与量子光学
教学及学生指导情况
本科教学课程：《力学基础I》、《热学基础I》和《热力学与统计物理》,负责的《热学基础II》入选首批国家级一流本科课程。
发表论文及专著
合作发表论文：List of Publications of Luo and his coauthors: 2020:1. Peng-Bin Niu, Li-Xiang Liu* ,Xiao-Qiang Su, Li-Juan Dong, Yun-Long Shi, Hong-Gang Luo, Spin-resolved transport through a quantum dot driven by bias and temperature gradient, Physica E-Low-Dimensional Systems & Nanostructures, 119, 114030 (2020)2. Kai Bai, Hong-Gang Luo, Wen-Xian Zhang, Meng Xiao*, Non-Markovian effect on quantum optical metrology under a dissipative environment, Physical Review A, 101, 022115(2020)3. Can Shao*, Takami Tohyama, Hong-Gang Luo, Han-Tao Lu*, Analysis of time-resolved single-particle spectrum on the one-dimensional extended Hubbard model, Physical Review B, 101, 045128(2020)4. Wan-Xiu He, Zhan Cao*, Gao-Yang Li, Lin Li, Hai-Feng Lu, Zhen-Hua Li, Hong-Gang Luo*, Performance of the T-matrix based master equation for Coulomb drag in double quantum dots, Physical Review B,101,035417(2020)5. Yu Zhang, Lin Li*, Jin-Hua Sun, Dong-Hui Xu, Rong Lu, Hong-Gang Luo, Wei-Qiang Chen*, Kondo effect in monolayer transition metal dichalcogenide Ising superconductors, Physical Review B, 101,035124(2020)6. Wen-Li Zhu, Wei Wu*, Hong-Gang Luo, Effect of system-reservoir correlations on temperature estimation, Chinese Physics B, 29, 020501(2020)2019:1. Peng-Bin Niu, Li-Xiang Liu*, Xiao-Qiang Su, Li-Juan Dong, Yun-Long Shi, Hong-Gang Luo, Spin-resolved transport physics induced by a Majorana-fermion zero mode, Aip Advances, 9, 125115(2019)2. Xiao Zhang, Jin-Bin Li, Zong-Sheng Zhou, Sheng-Jun Yue, Hong-Chuan Du*, Li-Bin Fu, Hong-Gang Luo*, Ellipticity dependence transition induced by dynamical Bloch oscillations, PHYSICAL REVIEW B 99, 014304 (2019)3. Can Shao,Takami Tohyama*, Hong-Gang Luo, Han-Tao Lu*, Photoinduced charge carrier dynamics in Hubbard two-leg ladders and chains, PHYSICAL REVIEW B 99, 035121 (2019)4. Yong-Xi Cheng, Yuan-Dong Wang, Jian-Hua Wei*, Hong-Gang Luo, Hai-Qing Lin, Long-range overlapping of Kondo clouds in open triple quantum dots, J. Phys.: Condens. Matter 31 (2019) 155302 (8pp)5. Bin-Bin Mao,Liang-Sheng Li, Yi-Min Wang, Wen-Long You, Wei Wu, Mao-Xin Liu*, Hong-Gang Luo*, Variational generalized rotating-wave approximation in the two-qubit quantum Rabi model, PHYSICAL REVIEW A, 99, 3, 033834, （2019）6. Zong-sheng Zhou, Fu-zhou Chen, Yin Zhong, Hong-Gang Luo, Ji-Ze Zhao*, Parity dependent phase diagrams in spin-cluster two-leg ladders, PHYSICAL REVIEW B, 99, 20, 205143, (2019)7. Fu-Zhou Chen, Chen Cheng, Hong-Gang Luo*, Hybrid parallel optimization of density matrix renormalization group method, ACTA PHYSICA SINICA, 68, 12, 120202, (2019)8. Can Shao*, Han-Tao Lu*, Hong-Gang Luo, Rubem Mondaini*, Photoinduced enhancement of bond order in the one-dimensional extended Hubbard model, PHYSICAL REVIEW B 100, 041114(R) (2019)9. Wei-Wei Yang, Ji-Ze Zhao, Hong-Gang Luo*, Yin Zhong*, Exactly solvable Kondo lattice model in the anisotropic limit, Phys Rev B. 100. 045148, (2019)10. Kai Yang, Hui Chen, Thomas Pope , Yi-Bin Hu, Li-Wei Liu, Dong-Fei Wang , Lei Tao, Wen-De Xiao , Xiang-Min Fei, Yu-Yang Zhang, Hong-Gang Luo, Shi-Xuan Du, Tao Xiang, Werner A. Hofer*, Hong-Jun Gao*, Tunable giant magnetoresistance in a singlemolecul junction, NATURE COMMUNICATIONS, (2019) 10:3599 11. Lei Cong, Xi-Mei Sun, Mao-Xin Liu, Zu-Jian Ying*, Hong-Gang Luo*, Polaron picture of the two-photon quantum Rabi model, PHYSICAL REVIEW A 99, 013815 (2019)12. Yin Zhong*, Qin Wang, Yu Liu*, Hai-Feng Song, Ke Liu, Hong-Gang Luo*, Finite temperature physics of 1D topological Kondo insulator: Stable Haldane phase, emergent energy scale and beyond, FRONTIERS OF PHYSICS, 14, 2, 23602,(2019)13. Kai Bai, Zhen Peng, Hong-Gang Luo, and Jun-Hong An*, Retrieving Ideal Precision in Noisy Quantum Optical Metrology, PHYSICAL REVIEW LETTERS 123, 040402 (2019)14. Wei-Wei Yang, Hong-Gang Luo, Yin Zhong*, Benchmarking the simplest slave-particle theory with Hubbard dimer，CHINESE PHYSICS B, 28,10, 107103, (2019)2018:1. Lin Li, Ming-Xin Gao, Zhen-Hua Wang, Hong-Gang Luo, and Wei-Qiang Chen, Rashba-induced Kondo screening of a magnetic impurity in a two-dimensional superconductor, Phys. Rev. B 97, 064519 (2018)2. Pengbin Niu, Lixiang Liu, Xiaoqiang Su, Lijuan Dong, and Hong-Gang Luo, Spin Seebeck effect in a metal-single-molecule-magnet-metal junction, AIP ADVANCES 8, 015215 (2018)3. Bin-Bin Mao(毛斌斌), Maoxin Liu(刘卯鑫), Wei Wu(吴威), Liangsheng Li(李粮生), Zu-Jian Ying(应祖建), and Hong-Gang Luo(罗洪刚), An analytical variational method for the biased quantum Rabi model in the ultra-strong coupling regime, Chin. Phys. B Vol. 27, No. 5 (2018) **. Pengbin Niu, Lixiang Liu, Xiaoqiang Su, Lijuan Dong, Hong-Gang Luo，Spin current generator in a single molecular magnet with spin bias, Journal of Magnetism and Magnetic Materials 465 (2018) 9–135. Yimin Wang, Wen-Long You, Maoxin Liu, Yu-Li Dong, Hong-Gang Luo, G. Romero and JQ You, Quantum criticality and state engineering in the simulated anisotropic quantum Rabi model, New J. Phys. 20 (2018) **. Lin Li, Jin-Hua Sun, Zhen-Hua Wang, Dong-Hui Xu, Hong-Gang Luo, and Wei-Qiang Chen, Magnetic states and Kondo screening in Weyl semimetals with chiral anomaly，Phys. Rev. B 98, 075110 (2018)7. Huan Li , Yin Zhong , Yu Liu, Hong-Gang Luo and Hai-Feng Song, Z2 classification for a novel antiferromagnetic topological insulating phase in three-dimensional topological Kondo insulator, J. Phys.: Condens. Matter 30 (2018) 435601 (15pp)8.Hai-Qing Lin*, Mao-Xin Liu, Stefano Chesi, Hong-Gang Luo, Studies on the Rabi Model, Journal of Physics Conference Series, 1163, UNSP 012003, (2018)2017:1. Yin Zhong, Lan Zhang, Can Shao, and Hong-Gang Luo, Superfluid response in heavy fermion superconductors, Front. Phys. 12, 127101 (2017).2. Maoxin Liu, Zu-Jian Ying, Jun-Hong An, Hong-Gang Luo, and Hai-Qin Lin, The asymmetric quantum Rabi model in the polaron picture, J. Phys. A: Math. Theor. 50 (2017) 084003 (16pp).3. Zhan Cao, Tie-Feng Fang, Wan-Xiu He and Hong-Gang Luo, Thermoelectric unipolar spin battery in a suspended carbon nanotube, J. Phys.: Condens. Matter 29 (2017) 165302 (9pp).4. ZhenHua Li, JianHua Wei, Xiao Zheng, YiJing Yan, and Hong-Gang Luo, Corrected Kondo temperature beyond the conventional Kondo scaling limit, J. Phys.: Condens. Matter 29 (2017) 175601 (8pp).5. Zhan Cao, Tie-Feng Fang, Qing-Feng Sun, and Hong-Gang Luo, Inelastic Kondo-Andreev tunneling in a vibrating quantum dot, Phys. Rev. B 95, 121110(R) (2017).6. Lei Cong, Xi-Mei Sun, Maoxin Liu, Zu-Jian Ying, and Hong-Gang Luo, Frequency-renormalized multipolaron expansion for the quantum Rabi model, Phys. Rev. A 95, 063803 (2017).7. Yin Zhong, Yu Liu and Hong-Gang Luo，Topological phase in 1D topological Kondo insulator: Z2 topological insulator, Haldane-like phase and Kondo breakdown，Eur. Phys. J. B (2017) 90: 1478. Tie-Feng Fang, Ai-Min Guo, Han-Tao Lu, Hong-Gang Luo, and Qing-Feng Sun，Charge Kondo effect in negative-U quantum dots with superconducting electrodes，Phys. Rev. B 96, 085131 (2017).9. Maoxin Liu, Stefano Chesi, Zu-Jian Ying, Xiaosong Chen, Hong-Gang Luo, and Hai-Qing Lin, Universal Scaling and Critical Exponents of the Anisotropic Quantum Rabi Model, Phys. Rev. Lett. 119, 220601 (2017) (Editors' Suggestion).10. Bin-Bin Mao, Chen Cheng, Fu-Zhou Chen & Hong-Gang Luo, Magnetization jump in one dimensional J-Q2 model with anisotropic exchange, Scientific Reports (2017) 7:18104.2016：1. Pengbin Niu, Yunlong Shi, Zhu Sun, Yi-HangNie, Hong-Gang Luo, Kondo peak splitting and Kondo dip in single molecular magnet junctions, Journal of Magnetism and Magnetic Materials 398, 131–136 (2016).2. Pengbin Niu, Yunlong Shi, Zhu Sun, Yi-Hang Nie and Hong-Gang Luo, Thermoelectric ZT enhanced by asymmetric configuration in single-molecule-magnet junctions, J. Phys. D: Appl. Phys. 49 (2016) 045002 (6pp).3. Yin Zhong, Han-Tao Lu and Hong-Gang Luo, Superfluid density in the slave-boson theory, Eur. Phys. J. B (2016) 89: 28.4. Baobing Zheng, Meiguang Zhang, Shaomei Chang, Yaru Zhao, and Hong-Gang Luo, Shear-Induced Structural Transformation for Tetragonal BC4 , J. Phys. Chem. C 120 (1), pp 581–586 (2016).5. Can Shao, Takami Tohyama, Hong-Gang Luo, and Hantao Lu, Numerical method to compute optical conductivity based on pump-probe simulations, Phys. Rev. B 93, 195144 (2016).6. Lin Li, Zhan Cao, Tie-Feng Fang, Hong-Gang Luo, and Wei-Qiang Chen, Kondo screening of Andreev bound states in a normal metal-quantum dot-superconductor system, Phys. Rev. B 94, 165144 (2016).2015： 1. Yin Zhong, Han-Tao Lu, Hong-Gang Luo, Absence of coherent peaks in a Z2 fractionalized BCS superconducting state, Physica B 456, 221-226 (2015). 2. Hai-Ping Hu, Chen Cheng, Hong-Gang Luo, Shu Chen, Topological incommensurate magnetization plateaus in quasi-periodic quantum spin chains, Scientific Reports 5, 8433 (2015). 3. Yin Zhong, LanZhang, Han-Tao Lu, Hong-Gang Luo, Coexistence of antiferromagnetism and superconductivity of t-t'-J model on honeycomb lattice, Physica B 462, 1-7 (2015). 4. Dun Zhao, Shu-Wei Song, Lin Wen, Zai-Dong Li, Hong-Gang Luo, and Wu-Ming Liu, Topological defects and inhomogeneous spin patterns induced by the quadratic Zeeman effect in spin-1 Bose-Einstein condensates, Phys. Rev. A 91, 013619 (2015). 5. Liang Huang, Ying-Cheng Lai, Hong-Gang Luo, and Celso Grebogi, Universal formalism of Fano resonance, AIP Advances 5, 017137 (2015). 6. Baobing Zheng, Meiguang Zhang, and Hong-Gang Luo, Pressure effect on structural, elastic, and thermodynamic properties of tetragonal B4C4, AIP Advances 5, 037123 (2015).7. Maoxin Liu, Zu-Jian Ying, Jun-Hong An, and Hong-Gang Luo, Mean photon number dependent variational method to the Rabi model, New J. Phys. 17, 043001 (2015).8. Chen Cheng, Bin-Bin Mao, Fu-Zhou Chen and Hong-Gang Luo, Phase diagram of the one-dimensional t-J model with long-range dipolar interactions, EPL 110, 37002 (2015).9. Chong Chen, Jun-Hong An, Hong-Gang Luo, C. P. Sun, and C. H. Oh, Floquet control of quantum dissipation in spin chains, Phys. Rev. A 91, 052122 (2015).10. Chen Cheng, Bin-Bin Mao, Fu-Zhou Chen and Hong-Gang Luo, Phase separation in one-dimensional hard-core boson system with two- and three-body interactions, Eur. Phys. J. B 88, 152 (2015).11. Jindong Ren, Xu Wu, Haiming Guo, Jinbo Pan, Shixuan Du, Hong-Gang Luo, and Hong-Jun Gao, Lateral manipulation and interplay of local Kondo resonances in a two-impurity Kondo system, Applied Physics Letters 107, 071604 (2015).12. 毛斌斌, 程晨, 陈富州, 罗洪刚, 一维扩展t-J 模型中密度-自旋相互作用诱导的相分离,Acta Physica Sinica 64, 187105 (2015).13. Yin Zhong, Lan Zhang, Han-Tao Lu and Hong-Gang Luo, Fermionology in the Kondo-Heisenberg model: the case of CeCoIn5, Eur. Phys. J. B 88, 238 (2015).14. Zhan Cao, Tie-Feng Fang, Qiao Chen and Hong-Gang Luo, Currents and current correlations in a topological superconducting nanowire beam splitter, EPL 111, 57002 (2015).15. Tie-Feng Fang, Ning-Hua Tong, Zhan Cao, Qing-Feng Sun, and Hong-Gang Luo, Spin susceptibility of Anderson impurities in arbitrary conduction bands, Phys. Rev. B 92, 155129 (2015).16. Lan Zhang, Yu-Feng Wang, Yin Zhong and Hong-Gang Luo, Extended s-wave pairing symmetry on the triangular lattice heavy fermion system, Eur. Phys. J. B 88, 267 (2015).17. Zu-Jian Ying, Maoxin Liu, Hong-Gang Luo, Hai-Qing Lin, and J. Q. You, Ground-state phase diagram of the quantum Rabi model, Phys. Rev. A 92, 053823 (2015).18. Zhan Cao, Tie-Feng Fang, Lin Li, and Hong-Gang Luo, Thermoelectric-induced unitary Cooper pair splitting efficiency, App. Phys. Lett. 107, 212601 (2015).19. Lin Li, Zhan Cao, Hong-Gang Luo, Fu-Chun Zhang, and Wei-Qiang Chen, Fano resonance in a normal metal/ferromagnet-quantum dot- superconductor device, Phys. Rev. B 92, 195155 (2015). 20. Pengbin Niu,Yun-Long Shi, Zhu Sun, Yi-Hang Nie & Hong-Gang Luo，Kondo peak splitting and Kondo dip induced by a local moment, Sci. Rep. 5, 18021(2015); doi: 10.1038/srep18021 (2015). 2014：1. Yin Zhong, Yu-Feng Wang, Han-Tao Lu, Hong-Gang Luo, Kondo spin liquid in the Kondo necklace model: Classical disordered phase versus symmetry- protected topological state, Physica B 446, 22-27 (2014). 2. Qing-Jun Tong, Jun-Hong An, L. C. Kwek, Hong-Gang Luo, and C. H. Oh, Simulating Zeno physics by a quantum quench with superconducting circuits, Phys. Rev. A 89, 060101(R) (2014).3. Jindong Ren, Haiming Guo, Jinbo Pan, Yu Yang Zhang, Xu Wu, Hong-Gang Luo, Shixuan Du, S. T. Pantelides, and Hong-Jun Gao, Kondo Effect of Cobalt Adatoms on a Graphene Monolayer Controlled by Substrate- Induced Ripples, Nano Letters 14, 4011-4015 (2014). 4. Lin Li, Bao-Bing Zheng, Wei-Qiang Chen, Hua Chen, Hong-Gang Luo, and Fu-Chun Zhang, 0-π transition characteristic of the Josephson current in a carbon nanotube quantum dot, Phy. Rev. B 89, 245135 (2014). 5. Haiping Hu, Chen Cheng, Zhihao Xu, Hong-Gang Luo, and Shu Chen, Topological nature of magnetization plateaus in periodically modulated quantum spin chains, Phy. Rev. B 90, 035150 (2014). 6. Yu-Juan Zhang, Dun Zhao, Hong-Gang Luo, Multi-soliton management by the integrable nonautonomous nonlinear integro-differential Schroinger equation, Annals of Physics 350 112-123 (2014). 7. Chun-Jie Yang, Jun-Hong An, Hong-Gang Luo, Yading Li, and C. H. Oh, Canonical versus noncanonical equilibration dynamics of open quantum systems, Phys. Rev. E 90, 022122 (2014). 2013: 1. Yin Zhong, Yu-Feng Wang, Yong-Qiang Wang, and Hong-Gang Luo, Topological antiferromagnetic spin-density-wave phase in an extended Kondo lattice model, Phys. Rev. B 87, 035128 (2013). 2. T. F. Xu, X. L. Jing, H. G. Luo, W. C. Wu, and C. S. Liu, Gap solitons of a super-Tonks-Girardeau gas in a one-dimensional periodic potential, J. Phys. B: At. Mol. Opt. Phys. 46, 035310 (2013). 3. Hong-Gang Luo, Int. J. Mod. Phys. B 27, ** (2013). 3. Yin Zhong and Hong-Gang Luo, Ortihogonal Dirac semimetal on honeycomb lattice, Int. J. Mod. Phys. B 27, 136002 (2013). 4. Yin Zhong, Ke Liu, Yu-Feng Wang, Yong-Qiang Wang, and Hong-Gang Luo, Half-filled Kondo lattice on the honeycomb lattice, Eur. Phys. J. B 86:195(2013).5. Lin Li, Yang-Yang Ni, Yin Zhong, Tie-Feng Fang, Hong-Gang Luo, The Kondo effect of an adatom in graphene and its scanning tunneling spectroscopy, New J. Phys. 15, 053108 (2013) (Highlights of 2013 ).6. Qing-Jun Tong, Jun-Hong An, Jiangbin Gong, Hong-Gang Luo, and C. H. Oh, Generating many Majorana modes via periodic driving: A superconductor model, Phys. Rev. B 87, 201109(R) (2013).7. Hai-Bin Liu, Jun-Hong An, Chong Chen, Qing-Jun Tong, Hong-Gang Luo, and C. H. Oh, Anomalous decoherence in a dissipative two-level system, Phys. Rev. A 87, 052139 (2013).8. Yin Zhong, Yu-Feng Wang, and Hong-Gang Luo, Z2 fractionalized Chern/topological insulators in an exactly soluble correlated model, Phys. Rev. B 88, 045109 (2013). 9. Ying-Qi Lu, Jun-Hong An, Xi-Meng Chen, Hong-Gang Luo, and C. H. Oh, Frozen Gaussian quantum discord in photonic crystal cavity array system, Phys. Rev. A 88, 012129 (2013). 10. Yin Zhong, Yu-Feng Wang, Han-Tao Lu, and Hong-Gang Luo, Topological quantum phase transition in Kane-Mele-Kondo lattice model, Phys. Rev. B 88, 235111 (2013). 2012: 1. Zhan Cao, Yu-Feng Wang, and Hong-Gang Luo, Inhomogeneity of the phase space of the damped harmonic oscillator under L?evy noise, Phys. Rev. E 85, 042101 (2012). 2. Cai-Ying Ding, Dun Zhao and Hong-Gang Luo, Painlev?e integrability of two-component nonautonomous nonlinear Schr¨odinger equations, J. Phys. A: Math. Theor. 45, 115203 (2012). 3. Yin Zhong, Ke Liu, and Hong-Gang Luo, Extended dual description of Mott transition beyond two-dimensional space, Phys. Rev. B 85, 075106 (2012). 4. X. Y. Tee, H. G. Luo, T. Xiang, D. Vandervelde, M. B. Salamon, H. Sugawara, H. Sato, C. Panagopoulos, and Elbert E. M. Chia, Penetration depth study of LaOs4Sb12: Multiband s-wave superconductivity, Phys. Rev. B 86, 064518 (2012). 5. Yin Zhong, Ke Liu, Yong-Qiang Wang, and Hong-Gang Luo, Alternative Kondo breakdown mechanism: Orbital-selective orthogonal metal transition, Phys. Rev. B 86, 115113 (2012). 6. Yin Zhong, Ke Liu, Yong-Qiang Wang, and Hong-Gang Luo，Correlated metallic state in honeycomb lattice: Orthogonal Dirac semimetal，Phys. Rev. B 86, 165134 (2012) 7. T. F. Xu, X. L. Jing, H. G. Luo, W. C. Wu and C. S. Liu, Interplay between periodicity and nonlinearity of indirect excitons in coupled quantum wells, J. Phys.: Condens. Matter 24, 455301 (2012) (8pp). 8. Zhonghua Zhu, Daqiang Gao, Chunhui Dong, Guijin Yang, Jing Zhang, Jinlin Zhang, Zhenhua Shi, Hua Gao, Honggang Luo and Desheng Xue, Coexistence of ferromagnetism and superconductivity in YBCO nanoparticles, Phys. Chem. Chem. Phys. 14, 3859-3863 (2012). 2011: 1. Lin Li, Yang-Yang Ni, Tie-Feng Fang, and Hong-Gang Luo, Compensation effect in carbon nanotube quantum dots coupled to polarized electrodes in the presence of spin-orbit coupling, Phys. Rev. B 84, 235405 (2011).2. Cai-Ying Ding, Xiao-Fei Zhang, Dun Zhao, Hong-Gang Luo, and W. M. Liu, Matter-wave solitons in heteronuclear atomic Bose-Einstein condensates with synchronously controllable interactions and potentials, Phys. Rev. A 84, 053631 (2011). 3. Qing-Jun Tong, Jun-Hong An, Hong-Gang Luo, and C. H. Oh, Quantum phase transition in the delocalized regime of the spin-boson model, Phys. Rev. B 84, 174301 (2011). 4. Tie-Feng Fang, Qing-feng Sun, and Hong-Gang Luo, Phonon-assisted transport through suspended carbon nanotube quantum dots, Phys. Rev. B 84, 155417 (2011). 5. Qing-Jun Tong, Jun-Hong An, Hong-Gang Luo, and C. H. Oh, Entanglement distribution over the subsystems and its invariance, Quantum Information and Computation, Vol. 11, No. 9&10 (2011). 6. Dun Zhao, Yu-Juan Zhang, Wei-Wei Lou, and Hong-Gang Luo, AKNS hierarchy, Darboux transformation and conservation laws of the 1D nonautonomous nonlinear Schr ¨ odinger equations, J. Math. Phys. 52, 043502 (2011). 2010:1. Tie-Feng Fang and Hong-Gang Luo, Tuning the Kondo and Fano effects in double quantum dots, Phys. Rev. B 81, 113402 (2010). 2. Tie-Feng Fang, Wei Zuo, and Hong-Gang Luo, Erratum: Kondo Effect in Carbon Nanotube Quantum Dots with Spin-Orbit Coupling [Phys. Rev. Lett. 101, 246805 (2008)], PRL 104, 169902 (2010). 3. Juan-Juan Chen, Jun-Hong An, Qing-Jun Tong, Hong-Gang Luo, and C. H. Oh, Non-Markovian effect on the geometric phase of a dissipative qubit, Phys. Rev. A 81, 022120 (2010). 4. Qing-Jun Tong, Jun-Hong An, Hong-Gang Luo, and C. H. Oh, Mechanism of entanglement preservation, Phys. Rev. A 81, 052330 (2010). 5. H.-G. Luo, M.-P. Qin, and T. Xiang, Optimizing Hartree-Fock orbitals by the density-matrix renormalization group, Phys. Rev. B 81, 235129 (2010). 6. Qing-Jun Tong, Jun-Hong An, Hong-Gang Luo and C H Oh, Decoherence suppression of a dissipative qubit by the non-Markovian effect, J. Phys. B: At. Mol. Opt. Phys. 43 (2010) 155501 (7pp). 2009: 1. Hong-Gang Luo, Dun Zhao, and Xu-Gang He, Exactly controllable transmission of nonautonomous optical solitons, Phys. Rev. A 79, 063802 (2009). 2. Xu-Gang He, Dun Zhao, Lin Li, and Hong-Gang Luo, Engineering integrable nonautonomous nonlinear Schr?dinger equations, Phys. Rev. E 79, 056610 (2009). 3. Xing-Hua Hu, Xiao-Fei Zhang, Dun Zhao, Hong-Gang Luo, and W. M. Liu, Dynamics and modulation of ring dark solitons in two-dimensional Bose-Einstein condensates with tunable interaction, Phys. Rev. A 79, 023619 (2009). 4. X.-G. He, D. Zhao, and H.-G. Luo, Transformation from the nonautonomous to standard NLS equations, Eur. Phys. J. D 53, 213 (2009) . 5. T. Xiang, H.-G. Luo, D. H. Lu, K. M. Shen, and Z. X. Shen, Intrinsic electron and hole bands in electron-doped cuprate superconductors, Phys. Rev. B 79, 014524 (2009). 2008: 1. Tie-Feng Fang, Wei Zuo, and Hong-Gang Luo, Kondo Effect in Carbon Nanotube Quantum Dots with Spin-Orbit Coupling, Phys. Rev. Lett. 101, 246805 (2008). 2. Dun Zhao, Hong-Gang Luo, Hua-Yue Chai, Integrability of the Gross–Pitaevskii equation with Feshbach resonance management, Physics Letters A 372 (2008) 5644–5650. 3. ZHAO Dun, WANG Shun-Jin, and LUO Hong-Gang, Differential Representations of SO(4) Dynamical Group, Commun. Theor. Phys. (Beijing, China) 50 (2008) pp. 63–68. 4. H. G. Luo, Y. H. Su, and T. Xiang, Scaling analysis of normal-state properties of high-temperature superconductors, Phys. Rev. B 77, 014529 (2008). 2007:1. Dun Zhao, S. J. Wang, and H.-G. Luo, The calculation of differential representations of dynamical Lorentz group SO(3,1) as an example, Acta Mathematica Scientia Series 27 A(5): 819-829 (2007). 2. J. H. An, S. J. Wang, and H.-G. Luo, Entanglement dynamics of qubits in a common environment, Physica A 382, 753-764 (2007). 2006: 1. C. S. Liu, H.-G. Luo, and W. C. Wu, Patter formation of indirect excitons in coupled quantum wells, J. Phys.: Condens. Matter 18, 9659-9668 (2006).2. C. S. Liu, H.-G. Luo, W. C. Wu, and T. Xiang, Two-band model of Raman scattering on electron-doped high-Tc superconductors, Phys. Rev. B 73, 174517 (2006). 3. Y. H. Su, H.-G. Luo, and T. Xiang, Universal scaling behavior of the c-axis resistivity of high-temperature superconductors, Phys. Rev. B 73, 134510 (2006). 4. H.-G. Luo, T. Xiang, X. Q. Wang, Z. B. Su, and L. Yu, Luo et al. reply, Phys. Rev. Lett. 96, 019702 (2006). 2005: 1. J. H. An, S. J. Wang, and H. G. Luo, Constraint dynamics and tracking control to coherence of a thermal dissipative qubit, Chin. Phys. Lett. 22, 3009-3012 (2005). 2. W. Q. Ran, J. Chang, H. T. Lu, Y. H. Su, H. G. Luo, and T. Xiang, Geometrical structure effect on the localization length of carbon nanotubes, Chin. Phys. Lett. 22, 2375-2378 (2005). 3. H. T. Lu, Y. H. Su, L. Q. Sun, J. Chang, C. S. Liu, H. G. Luo, and T. Xiang, Thermodynamic properties of tetrameric bond-alternating spin chains, Phy. Rev. B 71, 144426 (2005). 4. Jun-Hong An, Shun-Jin Wang, and Hong-Gang Luo, Entanglement production and decoherence-free subspace of two single-mode cavities embedded in a common environment, J. Phys. A: Math. Gen. 38, 3579–3593 (2005). 5. H. G. Luo and T. Xiang, Superfluid Response in Electron-Doped Cuprate Superconductors, Phys. Rev. Lett. 94, 027001 (2005). 6. Dun Zhao, Hong-Gang Luo, Shun-Jin Wang, Wei Zuo, A direct truncation method for finding abundant exact solutions and application to the one-dimensional higher-order Schrodinger equation, Chaos, Solitons and Fractals 24, 533-547 (2005). 2004:1. Jun-Hong An, Shun-Jin Wang, Hong-Gang Luo, and Cheng-Long Jia, A two-level atom coupled to a controllable squeezed vacuum field reservoir, J. Opt. B: Quantum Semiclass. Opt. 6, 510-516 (2004). 2. J. Chang, Y. H. Su, H.-G. Luo, H. T. Lu, and T. Xiang, Effect of impurity resonance states on the NMR spectra of high-Tc cuprates, Phys. Rev. B 70, 212507 (2004). 3. H.-G. Luo, T. Xiang, X.Q. Wang, Z. B. Su, and L. Yu, Fano resonance in the Anderson impurity systems, Phys. Rev. Lett. 92, 256602 (2004). 4. Shun-Jin Wang, Cheng-Long Jia, Jun-Hong An, and Hong-Gang Luo, Spin switch and qubit register from a spin particle controlled by a time-dependent magnetic field, Chin. Phys. Lett. 21, 778 (2004). 5. Cheng-Long Jia, Shun-Jin Wang, Hong-Gang Luo, and Jun-Hong An, Electron spin transport through an Aharonov-Bohm ring – a spin switch, J. Phys.: Condens. Matter 16, 2043 (2004). 6. Jun-Hong An, Shun-Jin Wang, Hong-Gang Luo, Cheng-Long Jia , Production of squeezed state of single mode cavity field by the coupling of squeezed vacuum field reservoir in nonautonomous case, Chin. Phys. Lett. 21, 1 (2004). 2003:1. Y. H. Su, J. Chang, H. T. Lu, H.-G. Luo, and T. Xiang, Bilayer splitting spectroscopy of double-layer high Tc cuprates, Phys. Rev. B 68, 212501 (2003). 2. H.-G. Luo, T. Xiang, and X. Q. Wang, Comment on “Time-Dependent Density-Matrix Renormalization Group: A Systematic Method for the Study of Quantum Many-Body Out-of-Equilibrium Systems”, Phys. Rev. Lett. 91, 049701 (2003). 3. S. J. Wang, C. L. Jia, D. Zhao, H.-G. Luo, and J. H. An, Dark and bright solitons in a quasi-one-dimensional Bose-Einstein condensate, Phys. Rev. A 68, 015601 (2003).4. S. J. Wang, J. H. An, H.-G. Luo, and C. L. Jia, Dynamical symmetry and analytical solutions of the non-autonomous quantum master equation of the dissipative two-level system: decoherence of the quantum register, J. Phys. A: Math. Gen. 36, 829 (2003). 2002: 1. H.-G. Luo, S. J. Wang, and C. L. Jia, Magnetic flux effects in an Aharonov-Bohm ring with an inserted quantum dot, Phys. Rev. B 66, 235311 (2002). 2. H.-G. Luo, C. L. Jia, S. J. Wang, and W. Zuo, Nonlocal effects in the metal- insulator transition beyond the Hubbard III approximation，Phys. Rev. B 65, 075108 (2002). 2001:1. S. J. Wang, D. Zhao, H.-G. Luo, L. X. Cen, and C. L. Jia, Exact solution to the von Neumann equation of the quantum characteristic function of the two-level Jaynes-Cummings model, Phys. Rev. A 64, 052102 (2001). 2000: 1. H.-G. Luo and S. J. Wang, Equation-of-motion approach to the anharmonic oscillator, Phys. Rev. B 62, 5341 (2000). 2. H.-G. Luo and S. J. Wang, Specific heat of the periodic Anderson model at finite U, Phys. Rev. B 62, 1485 (2000). 3. H.-G. Luo and S. J. Wang, Equation of motion approach to the two-dimensional Hubbard model, Phys, Rev. B 61, 13418 (2000). 4. H.-G. Luo and S. J. Wang, Higher-order correlation effects to the solution of the Hubbard model, Phys. Rev. B 61, 5158 (2000). 5. L. Yang, K. Q. Yang, and H.-G. Luo, Complex version of KdV equation and its exact solution, Phys. Lett. A 267, 231 (2000). 6. S. J. Wang, H.-G. Luo, and W. Cassing, Microscopic study of the giant resonance of the hot nuclei, HEP & NP (in chinese) 24(10): 955 (2000). 1999: 1. H.-G. Luo and S. J. Wang, Moment-conserving decoupling approach to the many-body systems, Phys. Rev. B 60, 15480 (1999). 2. H.- G. Luo, W. Cassing, and S. J. Wang, Damping of collective nuclear motion and thermodynamic properties of nuclei beyond mean field, Nucl. Phys. A 652, 164(1999). 3. H.-G. Luo, Z. J. Ying, and S. J. Wang, Equation of motion approach to the solution of the Anderson model, Phys. Rev. B 59, 9710 (1999). 1995: 1. H.-G. Luo and K. Q. Yang, Spectral methods solution of a class of nonlinear equations, Journal of Lanzhou University (Natural Science) (in chinese) V31 (3), 58 (1995). 2. K. Q. Yang and H. G. Luo, Exact solution of a class of nonlinear equations, Journal of Lanzhou University (Natural Science) (in chinese) V31 (1), 35 (1995).
项目成果
12) 国家自然科学基金重点项目，**， 混合量子系统: 量子多体问题的构筑单元，2019/01-2023/12， 310万元，在研，主持 11）国家自然科学基金面上项目，**，量子杂质系统中地新奇量子态研究，2017/01-2020/12，62万元，在研，主持10）国家自然科学基金应急管理项目，**，强耦合光-物质相互作用研讨会：模型及应用，2018/01-2018/12，15万元，已结题，主持9）****（****），2015-2019年，理论物理8）国家自然科学基金****基金项目，**，凝聚态理论与数值方法，2014/01-2017/12，320万元，已结题，主持7）国家自然科学基金面上项目，**，少电子系统中电子关联的大尺度计算研究，2012/01-2015/12，63万元，已结题，主持6）国家自然科学基金重点项目，**，数值重正化群方法及其在关联量子系统中的应用研究，2010/01-2013/12，本人承担50万元，已结题，参加5）国家自然科学基金面上项目，**，电子型铜氧化物超导体微观两带模型研究，2009/01-2011/12，35万元，已结题，主持4）国家自然科学基金重点项目，**，共轭分子系统中电子关联及激发态的研究，2005/01-2008/12，本人承担50万元， 已结题，参加3）教育部新世纪人才计划，2006年2）国家自然科学基金面上项目，**，电子型高温超导体电子配对对称性研究，2005/01-2007/12， 25万元，已结题，主持1）国家自然科学基金青年基金项目，**，关联动力学在凝聚态及核物理中的应用研究，2001/01-2003/12，14万，已结题，主持
荣誉获奖
2020年，入选甘肃省拔尖领军人才；2019年，荣获宝钢教育优秀教师奖；2019年，入选甘肃省领军人才第一层次人选；2019年，入选国家百千****才工程，授予“有突出贡献中青年专家”荣誉称号；2019年，主持的“依托物理学科培养新工科高层次人才”新工科项目，获评为优秀项目；2019年，主持的“物理学课程教学体系改革探索”项目，被评为甘肃省高等学校教学质量与教学改革工程项目；2017年，牵头负责的“理论物理课程教学团队”获评为甘肃省高等学校教学团队；2015年，荣获兰州大学“师德标兵”荣誉称号；2014年，入选教育部“********”（2015-2019年）；2014年，荣获“国华杰出****奖”领军人才奖；2013年，获批国家自然科学基金****基金项目（2014-2017年）。
其他信息
招生信息：每年招收2-3名硕士研究生、2-3名博士研究生、1-2名博士后研究人员，欢迎有志于物理学基础研究的青年才俊加入团队。