扬州大学物理科学与技术学院欢迎您 ,今天是 : 2018年6月8日

吴健聘
发布日期:2018-04-03

吴健聘教授 硕士生导师

 

  联系方式:邮箱:jianpinwu@mail.bnu.edu.cn

    地址:扬州市四望亭路180号,扬州大学物理科学与技术学院,物理楼325

    邮编:225002

一、导师简历:

  1.教育经历

  2009.9-2012.7 北京师范大学, 理论物理,博士

  2006.9-2009.1 南昌大学, 理论物理,硕士

  1997.9-2001.7 华南师范大学, 物理学,学士

  2. 工作经历

  2018.4-至今 扬州大学,教授

  2018.1-2018.4 渤海大学,教授

        2014.9-2018.1 渤海大学,副教授

        2012.7-2014.9 渤海大学,讲师

        2012.8-2013.8 韩国西江大学量子时空中心,博士后

 

、研究领域:

  1、研究方向

  引力的全息性质、规范引力对偶及其应用、量子引力、黑洞物理学及宇宙学

  2、主要研究内容

  (1)规范引力对偶及其在凝聚态物理中的应用。利用AdS/CFT对偶构建全息量子物态,研究其输运等性质;全息格点模型及全息量子相变。

  (2)黑洞物理,量子混沌,量子信息及全息。

        3、主要科研项目

    (1)国家自然科学基金面上项目,11775036,量子混沌,黑洞物理及全息的研究,2018 /01-2021/1256万,主持;

    (2)国家自然科学基金青年项目,11305018AdS/CFT对偶在强耦合费米系统中的应用、2014/01-2016/12, 22万,主持(已结题);

    (3)国家自然科学基金面上项目,11275208、全息引力及其在凝聚态物理中的应用、2013/01-2016/1280万,参与;

    (4)辽宁省教育厅优秀人才项目(辽宁省高等学校优秀人才支持计划杰出青年学者成长计划),LJQ20141232014/07-2017/076万,主持(已结题);

    (5)辽宁省科技厅面上项目,规范引力对偶及其金属绝缘相变的实现,2016020132016/07-2018/073万,主持;

    (6)辽宁省教育厅项目,辽宁省研究生创新与交流中心,省研究生联合培养项目,2017/01-2018/125万,主持;

三、研究成果:

      1.主要获奖

      120158月入选辽宁省第九批“百千万人才工程”千人层次;

   (2201479日获中国引力与相对论天体物理学会2013年度青年学者优秀论文奖并列三等奖;

   (3201473日获辽宁省自然科学学术成果奖一等奖;

   (4201453日获锦州市自然科学学术成果奖一等奖;

   (52015720日获辽宁省自然科学学术成果奖三等奖;

   (62015514日获锦州市自然科学学术成果奖一等奖。

    2.主要学术论文

    已经在Phys.Rev.Lett., Phys.Rev. D, JHEP, JCAP, Phys.Lett.B, Eur.Phys.J.CSCI杂志发表学术论文52篇,引用1000余次,H-index18。详细论文及引用情况见:http://inspirehep.net/author/profile/Jian.Pin.Wu.1?ln=zh_CN

 

      [1] Yi Ling, Peng Liu, Jian-Pin Wu, Meng-He Wu, Holographic superconductor on a novel insulator, Chin.Phys. C42 (2018) no.1, 013106, arXiv:1711.07720 [hep-th];

      [2] Jian-Pin Wu*, Peng Liu, Holographic superconductivity from higher derivative theory, Phys.Lett. B774 (2017) 527-532, arXiv:1710.07971 [hep-th];

      [3] Xiao-Mei Kuang, Jian-Pin Wu*, Effect of quintessence on holographic fermionic spectrum, Eur.Phys.J. C77 (2017) no.10, 670;

      [4] Xiao-Mei Kuang, Eleftherios Papantonopoulos, Jian-Pin Wu*, Zhenhua Zhou, Lifshitz black branes and DC transport coefficients in massive Einstein-Maxwell-dilaton gravity, Phys.Rev. D97 (2018) no.6, 066006, arXiv:1709.02976 [hep-th]

      [5] Guoyang Fu, Jian-Pin Wu*, Baicheng Xu, Jiaqiu Liu, Holographic response from higher derivatives with homogeneous disorder, Phys.Lett. B769 (2017) 569-574, arXiv:1705.06672 [hep-th]

      [6] Xiao-Mei Kuang, Jian-Pin Wu*, Thermal transport and quasi-normal modes in Gauss–Bonnet-axions theory, Phys.Lett. B770 (2017) 117-123, arXiv:1702.01490 [hep-th]

      [7] Yi Ling, Peng Liu, Jian-Pin Wu*, Note on the butterfly effect in holographic superconductor models, Phys.Lett. B768 (2017) 288-291, arXiv:1610.07146 [hep-th]

      [8] Yi Ling, Peng Liu, Jian-Pin Wu, Holographic Butterfly Effect at Quantum Critical Points, JHEP 1710 (2017) 025, arXiv:1610.02669 [hep-th]

      [9] Li-Qing Fang, Xiao-Mei Kuang, Jian-Pin Wu , The holographic fermions dual to massive gravity, Sci.China Phys.Mech.Astron. 59 (2016) no.10, 100411

      [10] Yi Ling, Peng Liu, Jian-Pin Wu, Zhenhua Zhou, Holographic Metal-Insulator Transition in Higher Derivative Gravity, Phys.Lett. B766 (2017) 41-48, arXiv:1606.07866 [hep-th]

      [11] Jian-Pin Wu*, Holographic fermionic spectrum from Born–Infeld AdS black hole, Phys.Lett. B758 (2016) 440-448, arXiv:1705.06707 [hep-th]

      [12] Yi Ling, Peng Liu, Jian-Pin Wu, Characterization of Quantum Phase Transition using Holographic Entanglement Entropy, Phys.Rev. D93 (2016) no.12, 126004, arXiv:1604.04857 [hep-th]

      [13] Yi Ling, Peng Liu, Chao Niu, Jian-Pin Wu, Pseudo-gap phase and duality in a holographic fermionic system with dipole coupling on Q-lattice, Chin.Phys. C40 (2016) no.4, 043102, arXiv:1602.06062 [hep-th]

      [14] Jian-Pin Wu, Xiao-Mei Kuang, Scalar Boundary Conditions in Hyperscaling Violating Geometry, Phys.Lett. B753 (2016) 34-40, arXiv:1512.03499 [hep-th]

      [15]Zhenhua Zhou, Yi Ling, Jian-Pin Wu, Holographic incoherent transport in Einstein-Maxwell-dilaton Gravity,Phys.Rev. D94 (2016) no.10, 106015, arXiv:1512.01434 [hep-th]

      [16]Xiao-Mei Kuang, Jian-Pin Wu*, Analytical shear viscosity in hyperscaling violating black brane, Phys.Lett. B773 (2017) 422-427, arXiv:1511.03008 [hep-th]    

      [17]Yi Ling, Peng Liu , Jian-Pin Wu, A novel insulator by holographic Q-latticesJHEP 1602 (2016) 075, arXiv:1510.05456 [hep-th]

      [18]Li-Qing Fang, Xiao-Mei Kuang, Bin Wang, Jian-Pin WuFermionic phase transition induced by the effective impurity in holography, JHEP 1511 (2015) 134 ,arXiv:1507.03121 [hep-th]

      [19]Yi Ling, Peng Liu, Chao Niu, Jian-Pin Wu, Building a doped Mott system by holography, Phys.Rev. D92 (2015) no.8, 086003, arXiv:1507.02514 [hep-th]

      [20]Zhenhua Zhou, Jian-Pin Wu, Yi Ling, DC and Hall conductivity in holographic massive Einstein-Maxwell-Dilaton gravity, JHEP 1508 (2015) 067, arXiv:1504.00535 [hep-th]

      [21]Yi Ling , Peng Liu, Chao Niu , Jian-Pin Wu, Zhuo-Yu Xian, Holographic Entanglement Entropy Close to Quantum Phase Transitions, JHEP 1604 (2016) 114, arXiv:1502.03661 [hep-th]   

      [22]Xiao-Mei Kuang, Eleftherios Papantonopoulos, Bin Wang, Jian-Pin Wu, Dynamically generated gap from holography in the charged black brane with hyperscaling violation, JHEP 1504 (2015) 137, arXiv:1411.5627 [hep-th]

      [23]Yi Ling, Peng Liu, Chao Niu , Jia-Pin Wu*, Zhuo-Yu Xian, Holographic fermionic system with dipole coupling on Q-lattice, JHEP 1412 (2014) 149, arXiv:1410.7323 [hep-th]

      [24]Yi Ling, Peng Liu, Chao Niu, Jian-Pin Wu, Zhuo-Yu Xian, Holographic Superconductor on Q-lattice, JHEP 1502 (2015) 059, arXiv:1410.6761 [hep-th]

      [25]Li Qing Fang, Xian-Hui Ge, Jian-Pin Wu, Hong-Qiang Leng, Anisotropic Fermi surface from holography, Phys.Rev. D91 (2015) no.12, 126009, arXiv:1409.6062 [hep-th]

      [26]Xiao-Mei Kuang, Eleftherios Papantonopoulos, Bin Wang, Jian-Pin Wu,Formation of Fermi surfaces and the appearance of liquid phases in holographic theories with hyperscaling violation, JHEP 1411 (2014) 086, arXiv:1409.2945 [hep-th]

      [27]Da-Zhu Ma, Jian-Pin Wu*, Jifang Zhang, Chaos from the ring string in a Gauss-Bonnet black hole in AdS5 space, Phys.Rev. D89 (2014) no.8, 086011, arXiv:1405.3563 [hep-th]  

      [28]Hua Bi Zeng, Jian-Pin Wu*, Holographic superconductors from the massive gravity, Phys.Rev. D90 (2014) no.4, 046001, arXiv:1404.5321 [hep-th]  

      [29]Yi Ling, Chao Niu, Jian-Pin Wu, Zhuoyu Xian, Hong-bao Zhang, Metal-insulator Transition by Holographic Charge Density Waves, Phys.Rev.Lett. 113 (2014) 091602, arXiv:1404.0777 [hep-th]  

      [30]Jian-Pin Wu*, The charged Lifshitz black brane geometry and the bulk dipole coupling, Phys.Lett. B728 (2014) 450-456,

      [31]Yi Ling, Chao Niu, Jian-Pin Wu, Zhuo-Yu Xian, Holographic Lattice in Einstein-Maxwell-Dilaton Gravity, JHEP 1311 (2013) 006, arXiv:1309.4580 [hep-th]

      [32]Jian-Pin Wu*, The analytical treatments on the low energy behaviors of the holographic non-relativistic fermions, Phys.Lett. B723 (2013) 448-454

      [33]Jian-Pin Wu*, Emergence of gap from holographic fermions on charged Lifshitz background, JHEP 1304 (2013) 073

      [34]Yi Ling, Chao Niu, Jian-Pin Wu, Zhuo-Yu Xian, Hong-bao Zhang , Holographic Fermionic Liquid with Lattices, JHEP 1307 (2013) 045,  arXiv:1304.2128 [hep-th]  

      [35]Jian-Pin Wu*, Holographic fermions on a charged Lifshitz background from Einstein-Dilaton-Maxwell model, JHEP 1303 (2013) 083,

      [36]Xiao-Mei Kuang, Bin Wang, Jian-Pin Wu, Dynamical gap from holography in the charged dilaton black hole, Class.Quant.Grav. 30 (2013) 145011,  arXiv:1210.5735 [hep-th]  

      [37]Jian-Pin Wu, Yongge Ma, Anomaly freedom of the vector modes with holonomy corrections in perturbative Euclidean loop quantum gravity, Phys.Rev. D86 (2012) 124044,  arXiv:1209.2766 [gr-qc]

      [38]Xiao-Mei Kuang, Bin Wang, Jian-Pin Wu, Dipole Coupling Effect of Holographic Fermion in the Background of Charged Gauss-Bonnet AdS Black Hole, JHEP 1207 (2012) 125 arXiv:1205.6674 [hep-th]  

      [39]Wei-Jia Li, Jian-Pin Wu*, Holographic fermions in charged dilaton black branes, Nucl.Phys. B867 (2013) 810-826, arXiv:1203.0674 [hep-th]

      [40]Jian-Pin Wu*, Hua-Bi Zeng, Dynamic gap from holographic fermions in charged dilaton black branes, JHEP 1204 (2012) 068, arXiv:1201.2485 [hep-th]  

      [41]Da-Zhu Ma, Yue Cao, Jian-Pin Wu, The Stückelberg holographic superconductors with Weyl corrections, Phys.Lett. B704 (2011) 604-611, arXiv:1201.2486 [hep-th]

      [42]Jian-Pin Wu*, Some properties of the holographic fermions in an extremal charged dilatonic black hole, Phys.Rev. D84 (2011) 064008, arXiv:1108.6134 [hep-th]

      [43]Jian Pin Wu*, Holographic fermions in charged Gauss-Bonnet black hole, JHEP 1107 (2011) 106, arXiv:1103.3982 [hep-th]  

      [44]Jian-Pin Wu*, Yue Cao, Xiao-Mei Kuang, Wei-Jia Li, The 3+1 holographic superconductor with Weyl corrections, Phys.Lett. B697 (2011) 153-158,  arXiv:1010.1929 [hep-th]

      [45]Jian-Li Li, Jian-Pin Wu, Dynamics of tachyon field in spatially curved FRW universe, Phys.Lett. B686 (2010) 221-226, arXiv:1003.1870 [hep-th]

      [46]Yi Ling, Jian-Pin Wu*, A note on entropic force and brane cosmology, JCAP 1008 (2010) 017, arXiv:1001.5324 [hep-th]

      [47]Wei-Jia Li, Yi Ling, Jian-Pin Wu, Xiao-Mei Kuang, Thermal fluctuations in viscous cosmology, Phys.Lett. B687 (2010) 1-5, arXiv:1001.5152 [gr-qc]  

      [48]Jian-Pin Wu*, Yi Ling, The Cosmological perturbation theory in loop cosmology with holonomy corrections, JCAP 1005 (2010) 026, arXiv:1001.1227 [hep-th]   

      [49]Yi Ling, Wei-Jia Li, Jian-Pin Wu, Bouncing universe from a modified dispersion relation, JCAP 0911 (2009) 016, arXiv:0909.4862 [gr-qc]  

      [50]Jian-Pin Wu*, Yi Ling, Thermal non-Gaussianitity in Near-Milne universe, Phys.Lett. B684 (2010) 177-180, arXiv:0908.2392 [hep-th]

      [51]Yi Ling, Jian-Pin Wu*, Thermal non-Gaussianity in holographic cosmology,  Phys.Lett. B675 (2009) 151-154, arXiv:0809.3398 [hep-th]

      [52]Jian-Pin Wu*, Da-Zhu Ma, Yi Ling, Quintessence reconstruction of the new agegraphic dark energy model, Phys.Lett. B663 (2008) 152-159, arXiv:0805.0546 [hep-th]




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