1. Yi-Zhi Xu, Hai-Jun Zhou, Optimal segmentation of directed graph and the minimum number of feedback arcs, Journal of Statistical Physics 169: 187--202 (2017) [arXiv:1705.05946]

  2. Jin-Hua Zhao, Hai-Jun Zhou, Feedback arcs and node hierarchy in directed networks, Chinese Physics B 26: 078901 (2017).

  3. Dong-Ping Yang, Hai-Jun Zhou, Changsong Zhou, Co-emergence of multi-scale cortical activities of irregular firing, oscillations and avalanches achieves cost-efficient information capacity, PLoS Computational Biology 13(2): e1005384 (2017).

  4. Xiang Li, Jia-Yu Guo, Xu Li, Hai-Jun Zhou, Shu-Hui Zhang, Xiao-Dong Liu, Dong-Yan Chen, Yong-Chun Fang, Xi-Zeng Feng, Behavioural effect of low-dose BPA on male zebrafish: Tuning of male mating competition and female mating preference during courtship process, Chemosphere 169: 40--52 (2017)

  5. Lenka Zdeborova, Pan Zhang, Hai-Jun Zhou, Fast and simple decycling and dismantling of networks, Scientific Reports 6: 37954 (2016).

  6. Gino Del Ferraro, Chuang Wang, Hai-Jun Zhou, Erik Aurell, On one-step replica symmetry breaking in the Edwards-Anderson spin glass model, Journal of Statistical Mechanics: Theory and Experiments 073305 (2016).

  7. Yi-Fan Sun, Hai-Jun Zhou, Serving by local consensus in the public service location game, Scientific Reports 6: 32502 (2016).

  8. Hai-Jun Zhou, A spin glass approach to the directed feedback vertex set problem, Journal of Statistical Mechanics: Theory and Experiment, 073303 (2016) [arXiv:1604.00873]

  9. Shao-Meng Qin, Ying Zeng, and Hai-Jun Zhou, Spin-glass phase transitions and minimum energy of the random feedback vertex set problem, Physical Review E 94: 022146 (2016) [arXiv: 1603.09032]

  10. Salomon Mugisha and Hai-Jun Zhou, Identifying optimal targets of network attack by belief propagation, Physical Review E 94: 012305 (2016) [arXiv: 1603.05781]

  11. Hai-Jun Zhou, The rock--paper--scissors game, Contemporary Physics 57: 151--163 (2016) [DOI: 10.1080/00107514.2015.1026556].

  12. Erik Aurell, Nicolas Innocenti, Hai-Jun Zhou, The bulk and the tail of minimal absent words in genome sequences, Physical Biology 13: 026004 (2016) [arXiv:1509.05188]

  13. Yi-Zhi Xu, Hai-Jun Zhou, Generalized minimum dominating set and application in automatic text summarization, Journal of Physics: Conference Series 699: 012014 (2016)

  14. Hai-Jun Zhou, Wei-Mou Zheng, Loop-corrected belief propagation for lattice spin models, European Physical Journal B 88: 336 (2015) [ arXiv:1505.03504]

  15. Yusupjan Habibulla, Jin-Hua Zhao, Hai-Jun Zhou, The directed dominating set problem: Generalized leaf removal and belief propagation, Lecture Notes in Computer Science 9130: 78--88 (2015) [ arXiv:1505.03537]

  16. Jin-Hua Zhao, Yusupjan Habibulla, Hai-Jun Zhou, Statistical mechanics of the minimum dominating set problem, Journal of Statistical Physics 159: 1154--1174 (2015) [arXiv:1410.4607]

  17. Shao-Meng Qin, Hai-Jun Zhou, Solving the undirected feedback vertex set problem by local search, European Physical Journal B 87: 273 (2014) [arXiv:1406.5100]

  18. Chuang Wang, Shao-Meng Qin, Hai-Jun Zhou, Topologically invariant tensor renormalization group method for the Edwards-Anderson spin glasses model, Physical Review B 90: 174201 (2014) [arXiv:1311.6577]

  19. Zedong Bi, Hai-Jun Zhou, Optimal cooperation-trap strategies for the iterated rock-paper-scissors game, PLOS One 9, e111278 (2014) [arxiv:1406.3668].

  20. Zhijian Wang, Bin Xu, Hai-Jun Zhou, Social cycling and conditional responses in the Rock-Paper-Scissors game, Scientific Reports 4, 5830 (2014).

  21. Jin-Hua Zhao, Hai-Jun Zhou, Statistical physics of hard combinatorial optimization: Vertex cover problem, Chinese Physics B 23: 078901 (2014) [arXiv:1404.6049].

  22. Chuang Wang, Hai-Jun Zhou, Simplifying generalized belief propagation on redundant region graphs, Journal of Physics: Conference Series 473, 012004 (2013) [open access].

  23. Hai-Jun Zhou, Spin glass approach to the feedback vertex set problem, European Physical Journal B 86, 455 (2013), preprint here.

  24. Jin-Hua Zhao, Hai-Jun Zhou, Yang-Yu Liu, Inducing effect on the percolation transition in complex networks, Nature Communications 4, 2412 (2013), preprint here, news release here.

  25. Ying Zeng, Hai-Jun Zhou, Solution space coupling in the random K-satisfiability problem, Communications in Theoretical Physics 60, 363 (2013).

  26. Bin Xu, Hai-Jun Zhou, Zhijian Wang, Cycle frequency in standard Rock-Paper-Scissors games: Evidence from experimental economicsPhysica A 392, 4997-5005 (2013), open access, reprint here.

  27. Lu-Lu Wu, Hai-Jun Zhou, Mikko Alava, Erik Aurell, Pekka Orponen, Witness of unsatisfiability for a random 3-satisfiability formula, Physical Review E 87, 052807 (2013) [arXiv:1303.2413].

  28. Chuang Wang, Hai-Jun Zhou, Simplifying generalized belief propagation on redundant region graphs, Journal of Physics: Conference Series (2013), preprint here.

  29. Yifan Zhang, Teng Lu, Xiping Zeng, Hai-Jun Zhou, Hongxia Guo, Elmar Bonaccurso, Hans-Juergen Butt, Jianjun Wang, Yanlin Song, and Lei Jiang, Surface-mediated buckling of core-shell spheres for the formation of oriented anisotropic particles with tunable morphologies, Soft Matter 9, 2589-2592 (2013).

  30. Hai-Jun Zhou, Erratum: Long-range frustration in a spin-glass model of the vertex-cover problem [Phys. Rev. Lett. 94, 217203 (2005)], Physical Review Letters 109, 199901 (2012), preprint here.

  31. Yang-Yu Liu, Endre Csoka, Hai-Jun Zhou, Marton Posfai, Core percolation on complex networks, Physical Review Letters 109, 205703 (2012), [arXiv:1206.2550].

  32. Hai-Jun Zhou, Chuang Wang, Region graph partition function expansion andapproximate free energy landscapes: Theory and some numerical results, Journal of Statistical Physics 148, 513-547 (2012), [arXiv:1204.1818].

  33. Haiping Huang, State sampling dependence of Hopfield network inference, Communications in Theoretical Physics 57, 169-172 (2012), [arXiv:1104.4931].

  34. Haiping Huang, Hai-Jun Zhou, Counting solutions from finite samplings, Physical Review E 85, 026118 (2012), [arXiv:111.4278].

  35. Haiping Huang, Hai-Jun Zhou, Combined local search strategy for learning in networks of binary synapses, Europhysics Letters 96, 58003 (2011), [arXiv:1105.1651].

  36. Hai-Jun Zhou, Chuang Wang, Jing-Qing Xiao, Zedong Bi, Partition function expansion on region-graphs and message-passing equations, Journal of Statistical Mechanics: Theory and Experiment, L12001 (2011), [arXiv:1110.0881].

  37. Jing-Qing Xiao, Hai-Jun Zhou, Partition function loop series for a general graphical model: free energy corrections and message-passing equations, Journal of Physics A: Mathematical and Theoretical 44, 425001 (2011), also available here.

  38. Hui Ma, Hai-Jun Zhou, Approaching the ground states of the random maximum two-satisfiability problem by a greedy single-spin flipping process, Physical Review E 83, 052101 (2011), also available at arXiv.

  39. Hai-Jun Zhou, Chuang Wang, Ground-state configuration space heterogeneity of random finite-connectivity spin glasses and random constraint satisfaction problems, Journal of Statistical Mechanics: Theory and Experiment, P10010 (2010), also available at arXiv

  40. Haiping Huang, Hai-Jun Zhou, Learning by random walks in the weight space of the Ising perceptron, Journal of Statistical Mechanics: Theory and Expriments, P08014 (2010)

  41. Hai-Jun Zhou,  Solution space heterogeneity of the random K-satisfiability problem: Theory and simulations, Journal of Physics: Conference Series 233, 012011 (2010) [arXiv:1001.2951]

  42. Haiping Huang, Message passing algorithms for the Hopfield network reconstruction: Threshold behavior and limitation, Physical Review E 82, 056111 (2010), also available here.

  43. Hai-Jun Zhou,  Criticality and heterogeneity in the solution space of random constraint satisfaction problems, International Journal of Modern Physics B 24, 3479-3487 (2010) [arXiv:0911.4328].

  44. Haiping Huang, Reconstructing the Hopfield network as an inverse Ising problem, Physical Review E 81, 036104 (2010).

  45. Hai-Jun Zhou,  Glassy behavior and jamming of a random walk process for sequentially satisfying a constraint satisfaction formula, European Physical Journal B 73, 617-624  (2010) [arXiv:0907.0295].

  46. Hai-Jun Zhou, Hui Ma, Communities of solutions in single solution clusters of a random K-satisfiability formula, Physical Review E 80, 066108 (2009) [arXiv:0903.2908].

  47. Haiping Huang, Hai-Jun Zhou, Cavity approach to the Sourlas code system, Physical Review E 80, 056113 (2009) [arXiv:0905.2817].

  48. Pan Zhang, Ying Zeng, Hai-Jun Zhou, Stability analysis on the finite-temperature replica-symmetric and first-step replica-symmetry-broken cavity solutions of the random vertex cover problem, Physical Review E 80, 021122 (2009) [arXiv:0901.2635].

  49. Pui-Man Lam, Yi Zhen, Hai-Jun Zhou, Jie Zhou, Adsorption of externally stretched two-dimensional flexible and semiflexible polymers near an attractive wall, Physical Review E 79, 061127 (2009) [pdf].

  50. Kang Li, Hui Ma, Hai-Jun Zhou, From one solution of a 3-satisfiability formula to a solution cluster: Frozen variables and entropy, Physical Review E 79, 031102 (2009); [arXiv:0809.4332].

  51. Jie Zhou, Hai-Jun Zhou, Ground-state entropy of the random vertex-cover problem, Physical Review E 79, 020103(R) (2009); [arXiv:0810.0584].

  52. Zhen Shao, Hai-Jun Zhou, Dynamics-driven evolution to structural heterogeneity in complex networks, Physica A 388, 523-528 (2009); [arXiv:0804.3181].

  53. Hai-Jun Zhou, T->0 mean-field population dynamics approach for  the random 3-satisfiability problem, Physical Review E  77, 066102 (2008); [arXiv:0801.0205].

  54. Jie Zhou, Zhong-Can Ou-Yang, Hai-Jun Zhou, Simulating the collapse transition of a two-dimensional semiflexible lattice polymer, Journal of Chemical Physics 128, 124905 (2008); [pdf].

  55. Hai-Jun Zhou, Kang Li, Distribution of equilibrium free energies in a thermodynamic system with broken ergodicity, Communications in Theoretical Physics 49, 659-664 (2008); [pdf].

  56. Hai-Jun Zhou, Cyclic heating-annealing and Boltzmann distribution of free energies in a spin-glass system, Communications in Theoretical Physics 48, 179-182 (2007); [pdf].

  57. Jie Zhou, Hui Ma, Hai-Jun Zhou, Long-range frustration in T=0 first-step replica-symmetry-broken solutions of finite-connectivity spin glasses, Journal of Statistical Mechanics: Theory and Experiment, L06001 (2007); [arXiv:0706.0259].

  58. Zhen Shao, Hai-Jun Zhou, Optimal transportation network with concave cost functions: Loop analysis and algorithms, Physical Review E 75, 066112 (2007); [pdf].

  59. Hai-Jun Zhou, Boltzmann distribution of free energies in a finite-connectivity spin-glass system and the cavity approach, Frontiers of Physics in China 2, 238-250 (2007); [pdf].

  60. Hai-Jun Zhou, Reinhard Lipowsky, Activity patterns on random scale-free networks: global dynamics arising from local majority rules, Journal of Statistical Mechanics: Theory and Experiment, P01009 (2007); [arXiv/cond-mat/0701432].

  61. Martin Weigt, Hai-Jun Zhou, Message passing for vertex-covers, Physical Review E 74, 046110 (2006); [arXiv/cond-mat/0605190].

  62. Hai-Jun Zhou, Jie Zhou, Zhong-Can Ou-Yang, Sanjay Kumar, Collapse transition of two-dimensional flexible and semiflexible polymers, Physical Review Letters 97, 158302 (2006); [arXiv/cond-mat/0701434].

  63. Hai-Jun Zhou, Reinhard Lipowsky, Dynamic pattern evolution on scale-free networks, Proceedings National Academy Sciences USA 102, 10052-10057 (2005).

  64. Hai-Jun Zhou, Long range frustration in a spin-glass model of the vertex-cover problem, Physical Review Letters 94, 217203 (2005); [arXiv/cond-mat/0411077]; [supplementary text]; Erratum, Physical Review Letters 109, 199901 (2012).

  65. Hai-Jun Zhou, Long range frustration in finite-connectivity spin glasses: A mean field theory and its application to the random K-satisfiability problem, New Journal of Physics 7, 123 (2005); [arXiv/cond-mat/0411079].

  66. Hai-Jun Zhou, Yang Zhang, Hierarchical chain model of spider capture silk elasticity, Physical Review Letters 94, 028104 (2005); [arXiv/cond-mat/0412538].

  67. Hai-Jun Zhou, Reinhard Lipowsky, Network Brownian motion: A new method to measure vertex-vertex proximity and to identify communities and subcommunities, Lecture Notes in Computer Science 3038, 1062-1069 (2004); [ps].

  68. Hai-Jun Zhou, Distance, dissimilarity index, and network community structure, Physical Review E 67, 061901 (2003); [pdf].

  69. Hai-Jun Zhou, Network landscape from a Brownian particle's perspective, Physical Review E 67, 041908 (2003); [pdf].

  70. Hai-Jun Zhou, Vertex cover problem studied by cavity method: Analytics and population dynamics, European Physical Journal B 32, 265-270 (2003); [pdf].

  71. Hai-Jun Zhou, Scaling exponents and clustering coefficients of a growing random network, Physical Review E 66, 016125 (2002); [pdf].

  72. Yang Zhang, Hai-Jun Zhou, Zhong-Can Ou-Yang, Stretching single-stranded DNA: Interplay of electrostatic, base-pairing, and basepair stacking interactions, Biophysical Journal 81, 1133-1143 (2001); [pdf].

  73. Hai-Jun Zhou, Yang Zhang, Pulling hairpinned polynucleotide chains: Does base-pair stacking interaction matter?, Journal of Chemical Physics 114, 8694-8700 (2001).

  74. Hai-Jun Zhou, Yang Zhang, Zhong-Can Ou-Yang, Stretch-induced hairpin-coil transitions in designed polynucleotide chains, Physical Review Letters 86, 356-359 (2001); [pdf].

  75. Hai-Jun Zhou, Yang Zhang, Zhong-Can Ou-Yang, S. M. Lindsay, Xi-Z. Feng, P. Balagurumoorthy, R. E. Harrington, Journal of Molecular Biology 306, 227-238  (2001); [pdf].

  76. Hai-Jun Zhou, Yang Zhang, Zhong-Can Ou-Yang, Elastic property of single double-stranded DNA molecules: Theoretical study and comparison with experiments, Physical Review E 62, 1045-1058 (2000); [pdf].

  77. Yang Zhang, Hai-Jun Zhou, Zhong-Can Ou-Yang, Monte Carlo implementation of supercoiled double-stranded DNA, Biophysical Journal 78, 1979-1987 (2000).

  78. Hai-Jun Zhou, Zhong-Can Ou-Yang, Can pulling induce right- to left-handed structural transitions in negatively supercoiled DNA double-helix?, Modern Physics Letters B 13, 999-1003 (1999). [download]

  79. Hai-Jun Zhou, Yang Zhang, Zhong-Can Ou-Yang, Bending and base-stacking interactions in double-stranded DNA, Physical Review Letters 82, 4560-4563  (1999); [pdf].

  80. Hai-Jun Zhou, Zhong-Can Ou-Yang, Spontaneous curvature-induced dynamical instability of Kirkchhoff filaments: Application to DNA kink deformations, Journal of Chemical Physics 110, 1247-1251 (1999).

  81. Wei Zhao, Hai-Jun Zhou, Zhong-Can Ou-Yang, Kink instability in circular DNA studied as Helfrich chiral chains, Physical Review E 58, 8040-8043 (1998).

  82. Hai-Jun Zhou, Zhong-Can Ou-Yang, Theory on quench-induced pattern formation: Application to the isotropic to smectic-A phase transitions, Physical Review E 58, 5909-5913 (1998).

  83. Hai-Jun Zhou, Zhong-Can Ou-Yang, Bending and twisting elasticity: A revised Marko-Siggia model on DNA chirality, Physical Review E 58, 4816-4819 (1998).

  84. Hai-Jun Zhou, Fanmei Kong,Shape-invariant potentials and exact solutions in one-dimensional supersymmetric quantum mechanics, Journal of Nankai University (Natural Sciences), number 03, 56-60, 1997 (in Chinese).

  1. Zhen Shao, Hai-Jun Zhou, Evolve networks towards better performance: a Compromise between mutation and selection, [arXiv:0901.0357].

  2. Hai-Jun Zhou, Zhong-Can Ou-Yang, Maximum matching on random graphs (2003) [arXiv/cond-mat/0309348].

  3. Hai-Jun Zhou, Reinhard Lipowsky, The yeast protein-interaction network is a highly modular network with a stair-case community structure (2004) [pdf].

  4. Hai-Jun Zhou, Stretch-induced melting and thermal melting in a double-stranded biopolymer (2000) [arXiv/cond-mat/0007015].

  1. Spin Glass and Message Passing (Science Press, Beijing, 2015).

  2. 周海军,柳飞, 统计物理与复杂系统理论, 《物理学学科发展报告2007-2008》(中国科学技术学会主编,中国物理学会编著, 中国科学技术出版社,北京,2008),pp. 166-178.

  3. Hai-Jun Zhou, Structural transitions in biopolymers: From DNA to protein to spider silk, in "Proceedings of the 2nd International Symposium on Frontiers of Applied Mathematics" (Tsinghua University, Beijing 8-9 June 2006), edited by Din-Yu Hsieh, Meirong Zhang, and Weitao Sun (World Scientific, Singapore, 2007), pp 77-94; [pdf].

  4. Hai-Jun Zhou, Yang Zhang, Zhong-Can Ou-Yang, Theoretical and computational treatment of DNA and RNA molecules, in "Handbook of Theoretical and Computational Nanotechnology", edited by M. Rieth and W. Schommers (American Scientific Publishers, California, 2006), volume 6, pp. 419-487; [pdf].

  5. 黎明,柳飞,周海军,欧阳钟灿,单 分子弹性理论,《生命科学中的单分子行为及细胞内实时检测》(陈宜张、林其谁主编,科学出版社,北京,2005),pp. 337-357.

  1. 周海军,统计物理与复杂系统, 物理教学探讨 27(04上半月),1-4 (2009).

  2. Hai-Jun Zhou, Efficiency of local majority-rule dynamics on scale-free networks, AAPPS Bulletin 16 (03), 11-18  (2006); [pdf].

  3. 周海军,长程阻错的统计物理 理 论,物理 35 (03), 193-196 (2006); [pdf].

  4. Hai-Jun Zhou, Yang Zhang, Zhong-Can Ou-Yang, Elastic theories of single DNA molecules, Physica A 306, 359-367 (2002)  [Invited talk given by Prof. Ou-Yang at STATPHYS-21, Cancun, Mexico, July 15-21, 2001].