近期比赛成绩

2011年教职工运动会1500米冠军、100米第7名； 

2012年5月校运会1500米冠军，成绩4分50秒；100米第8名； 

2012年5月26日，北京教育系统教职工运动会，1500米亚军，成绩4分44秒17。

国内外25次马拉松比赛，主要有

1998年-2006年10月北京国际马拉松，2010年-2011年10月，北京国际马拉松… 

2011年5月，2012年月5月东营马拉松； 

2010年2月香港渣打国际马拉松； 

2009年4月德国 Dresden马拉松；2008年8月Dresden半程马拉松，该次比赛获得M30组冠军； 

2007年4月德国Dresden马拉松， 

2006年11月上海国际马拉松， 

2006年3月厦门国际马拉松。 

在北京师范大学主要比赛成绩 

2004年北京师范大学校运会1500米冠军，400米亚军； 

2003年校运会1500米冠军，400米亚军； 

2002年校运会1500、5000米冠军； 

2001年校运会1500米亚军、5000米亚军。

在复旦大学主要比赛成绩 

2006年复旦大学校运会1500米亚军，5000米冠军，400米系运会冠军，1500米系运会冠军； 

2006年复旦大学冬季越野赛业余组冠军（总名次第四名，前三名为高水平运动员）； 

2006年上海市高校越野竞标赛团体冠军成员。 

在香港中文大学主要比赛成绩 

2008年10月，香港中文大学越野赛教职工组冠军； 

2008年10月香港中文大学逸夫书院1500米亚军，5000米亚军； 

2009年10月香港中文大学逸夫书院5000米冠军，1500米亚军； 

2009年10月香港中文大学新亚书院5000米冠军，1500米冠军。 

1500米比赛最好成绩是2001年在北京师范大学的4分42秒99。

3000米比赛最好成绩是2009年在香港中文大学的10分12秒。

5000米比赛最好成绩是2008年在TU Dresden的17分42秒。

10000米比赛最好成绩是2008年9月在德国Dresden的37分26秒。

马拉松最好成绩是2007年4月在德国Dresden的3小时29分58秒。

1996年9月－2000年7月，北京师范大学物理学系 学士

2000年9月－2005年7月，北京师范大学物理学系 博士，主要从事铜氧化物高温超导材料超导机制及其反常物理特性的研究

2017年7月－至今，教授，北京师范大学物理学系

2012年7月－2017年6月，副教授，北京师范大学物理学系

2010年7月－2012年6月，讲师，北京师范大学物理学系

2016年3月－2016年4月，台湾中央研究院物理研究所（Institute of Physics, Academia Sinica）杰出访问学人

2015年3月－2016年3月，美国加州大学圣地亚哥分校（University of California, San Diego）访问学者

2014年11月－2014年11月，美国加州大学戴维斯分校（University of California, Davis）访问学者

2014年9月－2014年10月，美国德州大学奥斯汀分校（University of Texas at Austin）访问学者

2012年7月－2012年9月，美国洛斯阿拉莫斯国家实验室（Los Alamos National Laboratory）& NMSU 访问学者

2009年7月－2010年7月，香港中文大学物理系，博士后 研究方向：数值方法研究有阻挫系统的磁性和超导配对机制&拓扑绝缘体

2007年3月－2009年6月，Max Planck Institute for the Physics of Complex Systems，德国 研究方向：石墨烯&电子关联系统

2005年8月－2007年3月，复旦大学物理学系，博士后 研究方向：自旋电子学

强关联电子系统

高温超导电性、有阻挫系统的磁性和超导配对机制

自旋电子学

拓扑绝缘体、石墨烯、自旋轨道耦合系统

计算物理

量子蒙特卡罗、精确对角化

我目前主要从事拓扑绝缘体、石墨烯新奇特性、有阻挫系统磁性和超导电性的研究。

1，主持国家自然科学基金科学基金面上项目一项，项目号11974049，新颖平带电子关联体系的量子临界行为和超导电性，62万，2020.1-2023,12；

2，主持北京市自然科学基金科学基金面上项目一项，项目号1192011，新颖狄拉克电子关联体系量子临界点附近的磁性和超导电性，20万，2019.1-2021,12；

3，主持国家自然科学基金科学基金面上项目一项，项目号11774033，非常规或拓扑超导新体系的理论探索及物性研究，65万，2018.1-2021,12；

4，主持国家自然科学基金科学基金面上项目一项，项目号11374034，几何阻挫系统中的新颖量子磁性和超导电性，76万，2014.1-2017.12；

5，主持中央高校基本科研业务重点项目一项，项目号2014KJJCB26，空位、应力对石墨烯相关材料磁性的影响，35万，2014.1-2017.12；

6，参与国家自然科学基金重点项目一项，项目号11334012，多轨道复杂体系中的新奇量子态，320万，2014.1-2018.12；

7，主持国家自然科学基金青年科学基金项目一项，项目号11104014，石墨烯相关材料的铁磁性、磁性杂质效应及其调控，25万，2012.1-2014.12；

8，主持北京市优秀人才项目一项，项目号108001，旋轨道耦合材料中电子关联驱动的新奇量子态，4万，2014.1-2015.12；

9，主持教育部高等学校博士点专项科研基金一项，项目号20110003120007，石墨烯磁性及其超导电性的研究，4万，2012.1-2014.12；

10，主持教育部留学回国人员科研启动基金一项，项目号101213018， 数值方法研究石墨烯体系磁学相关性质，3万，2012.7-2014.6；

11，主持北京师范大学青年科学基金一项拓扑绝缘体量子相变的刻画及相关磁学响应；

12，参与国家自然科学基金面上项目一项，项目号10674030, 凝聚态和量子调控中的量子相干和量子纠缠，2007.1-2009.12；

13，主持上海博士后基金一项，项目号06R214118自旋电子学：自旋轨道耦合系统的自旋输运性质。

学术会议

1，第十八届凝聚态理论与统计物理学术会议（2014年7月26-29日, 重庆）邀请报告: ：Pairing in Doped Graphene : A Quantum Monte Carlo Study

2，The 8th Singapore-China Joint Symposium on Research Frontiers in Physics（September 23-25, Sun Yat-sen U）邀请报告: Magnetism and pairing in novel material

3，中国物理学会秋季物理会议（2012年9月21日－23日，中山大学）报告: Quantum Monte Carlo study of a dominant s-wave pairing symmetry in iron-based superconductors

4，American March Meeting, Feb27-March 3, 2012 (Boston, USA)    报告： Numerical study of Magnetism in graphene nanoribbons and graphene dot

5，American March Meeting, March 21-25, 2011 (Dallas, USA)    报告：Pairing in graphene: A Monte Carlo study

6，中国物理学会秋季物理会议（2010年9月16日－21日，天津南开） 报告: Graphene体系磁学和超导配对的研究

7，American March Meeting, March 16-19, 2010 (Portland, USA)  报告: Controllability of ferromagnetism in graphene

8，Conference on Computational Physics, December 15-19, 2009 (Kaohsiung，台湾)  报告: Magnetic correlation in the Hubbard model on a Honeycomb lattice

9，ICTP Conference Graphene Week 2008, 25-29 August (Trieste, 意大利) Poster: NMR relaxation rate and static spin susceptibility in graphene

10，中国物理学会秋季物理会议（2004年9月18日－20日，山西太原）邀请报告：Interplay between single particle coherence and kinetic energy driven superconductivity in doped cuprats

11，中国超导学术会议（2003年4月8日－13日，安徽合肥）报　　告：扩展的t-J模型中的非公度反铁磁自旋关联

2020年8月，第十一届北京高校青年教师教学基本功比赛论文比赛三等奖，创新性人才培养的有效途径：理科大学生科研训练的实施和效果

2019年12月，北京师范大学本科教学优秀奖

2017年12月，第十届北京高校青年教师教学基本功比赛论文比赛三等奖，海内外一流高校物理学专业创新性人才培养方案探析

博士研究生4名，硕士研究生3名，国家大学生创新项目3项，北京市大学生创新项目2项，多名本科生从事校级科研项目。

希望招收到多名研究生（博士生、硕士生），欢迎优秀的本科生加盟从事科研训练。

1.     RanLiu, Ting Guo, Jiajun Lu, Junfeng Ren, TianxingMa*, Different phase leads to different transport behavior in Pb₉Cu(PO₄)₆Ocompounds, arXiv:2308.08454.

2.     KaiyiGuo, Ying Liang*, Tianxing Ma*, Doping driven metal-insulatortransition in disordered graphene, Phys. Rev.B 109, 045107 (2024) – Published3 January 2024.

3.     ChaoChen, Zenghui Fan, Runyu Ma, Yue Pan, Ying Liang, Bing Huang*, and Tianxing Ma*, Stripe order manipulateddominant pairing symmetry in the Hubbard model, Phys.Rev. B 109, 045101(2024)– Published 2 January 2024

4.     YuePan, Runyu Ma, Tianxing Ma*, Strong ferromagnetic fluctuations in adoped checkerboard lattice, Phys. Rev. B 107, 245126 (2023). - Published16 June 2023

5.     XiaoZhang, Runyu Ma, Zenghui Fan, Zixuan Jia, LufengZhang, Tianxing Ma*, Evolution of magnetic correlation in an inhomogeneoussquare lattice, Phys. Rev. B 107, 235128 (2023). – Published 14 June 2023

6.     RunzeHan, Jiazhou Chen, Mengyue Zhang, Jinze Gao, Yicheng Xiong, Yue Pan*, TianxingMa*, Zigzag edge ferromagnetism of triangular-graphene-quantum-dot-likesystem, arXiv:2305.03145.

7.     ChaoChen, Peigeng Zhong, Xuelei Sui, Ying Liang, Shijie Hu*, TianxingMa*, Hai-Qing Lin*, Bing Huang*, Charge Stripe Manipulation ofSuperconducting Pairing Symmetry Transition, arXiv:2304.14254.

8.     RunyuMa, TIanxing Ma*, Competition between antiferromagnetism andsuperconductivity in a doped Hubbard model with anisotropic interaction, Phys. Rev. B 107,214509(2023). -Published 13 June 2023

9.     HuijiaDai, Runyu Ma, Xiao Zhang, Ting Guo, Tianxing Ma*, Quantum MonteCarlo study of superconductivity in rhombohedral trilayer graphene under anelectric field, Phys. Rev. B 107, 245106(2023). - Published 5 June 2023

10.  Jiabao Wang, Yue Zhang, Ying Liang, TianxingMa*,QiaoniChen∗,Bond-disordered Heisenberg antiferromagnetson a square lattice, Phys. Lett. A 463, 128682(2023). - Published 5March 2023

11.  Jingyao Meng, Runyu Ma, LufengZhang, Tianxing Ma, Transport anisotropy and metal-insulatortransition in striped Dirac fermion systems, Phys. Rev. B 106, 235140(2022). - Published 19 December 2022

12.  Lingyu Tian, Jingyao Meng, and Tianxing Ma*, Intermediate phase induced by dilution in a correlated Dirac Fermisystem, Phys. Rev.B 106, 205144 (2022)- Published 28 November 2022.

13.   Yueqi Li, Lingyu Tian, Tianxing Ma*, Hai-Qing Lin, Metal-insulator transition in the disorderedHubbard model of the Lieb lattice, Phys. Rev.B 106, 205149 (2022) -Published 28 November 2022.

14.  Chao Chen, Runyu Ma, Xuelei Sui, YingLiang, Bing Huang, Tianxing Ma*, Antiferromagneticfluctuations and a dominant d_xy-wave pairing symmetry innickelate-based superconductors, Phys. Rev.B 106, 195112 (2022) -Published 4 November 2022

15.  Jingyao Wang, Xiao Zhang, RunyuMa, Guang Yang, Eduardo V. Castro, Tianxing Ma*, Spin tripletsuperconducting pairing in doped MoS₂, Phys.Rev. B 106, 134513 (2022)- Published 27 October 2022.

16.  Tianxing Ma, Da Wang, Congjun Wu,Doping-driven Antiferromagnetic Insulator - Superconductor Transition: aQuantum Monte Carlo Study, Phys. Rev. B 106,054510 (2022) -Published 12 August 2022

17.  Yuejian Zhang, Xiping Yang, Jia-Jin Feng,Zhi Wang, Tianxing Ma*, Josephson radiation patterns in underdampedtopological Josephson junctions, Phys. Rev. B 105, 174514 (2022)- Published 20 May 2022.

18.  Jingyao Meng, Lufeng Zhang, Tianxing Ma*, Hai-Qing Lin, Magneticphase transition in disordered interacting Dirac fermion systems via the Zeemanfield, Phys. Rev. B 105, 205121 (2022). - Published 18May 2022

19.  Lufeng Zhang, Ting Guo, Yingping Mou, Tianxing Ma*, Enhancement of d-wavepairing in the striped phase with the nearest neighbour attraction, Phys. Rev. B 105, 155154(2022).- Published 27 April2022

20.  Lingyu Tian, Yueqi Li, Ying Liang, Tianxing Ma*, Doping-dependent metal-insulator transition in a disordered Hubbardmodel, Phys. Rev. B 105, 045132(2022). - Published 24 January 2022

21.  Ming-Huan Zeng, Y.-J. Wang*, Tianxing Ma*, Phase diagram of theHubbard model on a honeycomb lattice: A cluster slave-spin study, Phys. Rev. B 105, 035155(2022).  - Published 31 January 2022

22.  Lufeng Zhang, Chi Ma, Tianxing Ma*, Metal−insulator transition in strained graphene: Aquantum Monte carlo study, Phys. Status SolidiRRL, 15, 2100287(2021).

23.  Ming-Huan Zeng, Tianxing Ma*, Y.-J. Wang*, Phase diagram of the Hubbard model ona square lattice: A cluster slave-spin study, Phys.Rev. B 104, 094524(2021).

24.  Jingyao Meng, Rubem Mondaini, Tianxing Ma*, Hai-Qing Lin, Inducing a metal-insulator transition indisordered interacting Dirac fermion systems via an external magnetic field,Phys. Rev. B 104, 045138(2021).

25.  Huijia Dai, Junchen Hou, Xiao Zhang, YingLiang, Tianxing Ma*, Mott insulating state and d+idsuperconductivity in an ABC trilayer graphene superlattice, Phys. Rev. B 104, 035104 (2021).

26.  Yonghuan Chu, Fangduo Zhu, Linzhi Wen,Wanying Chen, Qiaoni Chen, Tianxing Ma*,Superconductivity in twisted multilayergraphene: a smoking gun in recent condensed matter physics, Chin. Phys. B 29, 11 117401(2020).

27.  Chi Ma, Tianxing Ma*, Xihong Peng*, Quantumconfinement and edge effects on electronic properties of zigzag greenphosphorene nanoribbons, J. Phys.: Condens. Matter32, 175301 (2020).

28.  Jianli Luan, Kaiyi Guo, ShangyangLi, Tianxing Ma*, Li-Gang Wang*, Hai-Qing Lin, TunableDirac points and zero-energy modes in periodic curved graphene superlattices, Phys. Lett. A 409, 127510(2021).

29.  Jingyao Wang, LufengZhang, Runyu Ma, Qiaoni Chen, YingLiang, Tianxing Ma*, Intermediate phase in interacting Diracfermions with staggered potential, Phys. Rev. B 101,245161(2020).

30.  Wanying Chen, Yonghuan Chu, Tongyun Huang, Tianxing Ma*, Metal-insulator transition and dominant d+id pairing symmetry intwisted bilayer graphene, Phys.Rev. B 101, 155413 (2020).

31.  Baruch Rosenstein, Dingping Li, Tianxing Ma, H. C. Kao, Mean field theory of short range order instrongly correlated low dimensional electronic systems, Phys. Rev. B 100, 125140 (2019).

32.  Jianwei Yang, Qiyu Wang, Tianxing Ma, Qiaoni Chen, Degenerateorbital effect in a three orbital periodic Anderson model, Phys. Rev. B 99, 245136 (2019).

33.  Lufeng Zhang, Tongyun Huang, Ying Liang and Tianxing Ma*, Ground-state superconducting pair correlations intwisted bilayer graphene, Modern Physics LettersB, 2019.

34.  Baoyue Li, Yifeng Cao, Lin Xu, Guang Yang, Zhi Ma,Miao Ye, and Tianxing Ma, Anisotropyengineering edge magnetism in zigzag honeycomb nanoribbons, Chin. Phys. Lett. 36, 067503 (2019).

35.  Lufeng Zhang, TianxingMa*, Natanael C. Costa, RaimundoR. dos Santos, Richard T. Scalettar,DeterminantQuantumMonteCarloStudyofExhaustioninthePeriodicAnderson Model, Phys. Rev. B 99,195147(2019).

36.  TongyunHuang, Lufeng Zhang,Tianxing Ma*, Antiferromagnetically ordered Mottinsulator and $d+id$ superconductivityin twisted bilayer graphene:A quantum Monte carlo study,Science Bulletin 64, 310(2019).

37.  TianxingMa, LufengZhang, Chia-Chen Chang*, Hsiang-Hsuan Hung, and Richard T. Scalettar, Localization ofInteracting Dirac Fermions, Phys. Rev. Lett.120, 116601(2018).

38.  Guang Yang, Tianxing Ma*, Xihong Peng*,Superior mechanical flexibility and strained- engineered direct-indirect bandgap transition of green phosphorene, Appl. Phys.Lett. 112, 241904 (2018).  

39.  Jianli Luan, Shangyang Li, Tianxing Ma*, Li-Gang Wang*, Zitterbewegung near new Dirac points in graphenesuperlattice, J. Phys.: Condens. Matter 30 395502 (2018).

40.  Tongyun Huang, TianxingMa*and Li-Gang Wang*,Zitterbewegung in time-reversal Weyl semimetals, J. Phys.: Condens. Matter 30, 245501(2018).

41.  Tongyun Huang, Ruofan Chen, TianxingMa*, Li-Gang Wang*, Hai-QingLin, Electronic Bloch oscillation in a pristine monolayer graphene, PhysicsLetters A 382, 3086 (2018).

42.  Guang Yang, Baoyue Li, Wei Zhang, Miao Yeand Tianxing Ma*, Strain-tuning of edge magnetism in zigzaggraphene nanoribbons, J. Phys.: Condens. Matter 29, 365601 (2017).

43.  Dan Wei, Jingyao Wang, Yang Wu, Ying Liang*,Tianxing Ma, Pairing susceptibility of iron-based superconductors within a two-layerHubbard model, Phys. Lett. A 381, 4023(2017).

44.  Jingyao Wang, Yamei Zeng, Peng Wang, YingLiang and Tianxing Ma*, The evolution of pairing correlation in theanisotropic triangular lattice, Int. J. Mod. Phys. C 28, 1750127 (2017).

45.  TianxingMa, FanYang, Zhongbing Huang, Hai-Qing Lin, Tripletp -wave pairing correlation in low doped zigzag graphene nanoribbons,Scientific Reports 7,19 (2017).

46.  Guang Yang, Shenglong Xu, Wei Zhang, Tianxing Ma*, and Congjun Wu, Room temperature magnetism on the zigzag edges ofphosphorene nanoribbons, Phys. Rev. B 94, 075106(2016).

47.  Xiong Fan, Wenjun Huang, Tianxing Ma*, Li-Gang Wang, Tunable Electronic Band Structures andZero-Energy Modes of Heterosubstrate-induced Graphene Superlattices, Phys. Rev. B 93,165137 (2016) .  

48.  S. Wang, Z. Z. Ma, J. J. Xiong, C. J. Li,Y. H. Hou, T. X. Ma, C. M. Xiong, R.F. Dou, and J. C. Nie, Interface-enhancedsensitivity of photoconductivity to the electric current and magnetic field inLa0.67Ca0.33MnO3/Nb-SrTiO3 p-n junctions,Appl. Phys.Lett. 109, 251601 (2016).

49.  Peng Wang, Xinran Ma, Jingyao Wang, YameiZeng, Ying Liang*, and Tianxing Ma, Character of frustration on magneticcorrelation in doped Hubbard model, Eur. Phys. J. B 89, 38 (2016).

50.  Shuaiyu Li, Lin Tian, Lingli Shi, Lin Wen,and Tianxing Ma*, Ferromagnetic properties in low doped zigzaggraphene nanoribbons,J. Phys.: Condens. Matter 28, 086001 (2016).

51.  Xiong Fan, Wenjun Huang, Tianxing Ma*, Li-Gang Wang*, Hai-QingLin, Electronic band gaps and transportproperties in periodically alternating mono- and bi-layer graphene superlattices,Europhysics Letters112, 58003(2015).

52.  TianxingMa, Hai-Qing Lin, J. E.Gubernatis, Triplet p+ip paringcorrelation in doped Kane-Mele-Hubbard model: A quantum Monte Carlo study, Europhysics Letters 111,47003 (2015).  .

53.  Shuai Cheng, Jinming Yu, Tianxing Ma*, N. M. R. Peres, Strain induced edge magnetism at zigzag edgein graphene quantum dot, Phys. Rev. B 91, 075410 (2015).

54.  TianxingMa, Fan Yang, Hong Yao,Hai-Qing Lin, Possible Triplet p+ipSuperconductivity in Graphene at Low Filling, Phys. Rev. B 90,245114 (2014).

55.  Hemeng Cheng, Changan Li, Tianxing Ma*, Li-Gang Wang*, Yun Song,Hai-Qing Lin,      Electronic Bloch oscillation in bilayer graphene gradient superlattices, Appl. Phys. Lett. 105,072103 (2014).

56.  Shuai Cheng, XinWang, Suhang Liu, and Tianxing Ma*, Ground state pairing correlation competes in the doped triangularlattice Hubbard model, Eur. Phys. J. B 87,270(2014).

57.  Jing Wang, Lin-Jie Dai,Chang-Min Xiong, Xuan Zhao, Ning Wang, Wei-Jian Lou, Tianxing Ma, Dependence ofthe magnetism–resistivity correlation on Curie temperature in manganites,  Solid State Communications, Volume 181, 28 (2014).

58.  Tianxing Ma, Hai-Qing Lin,Jiangping Hu, Quantum Monte Carlo study of a dominant s-wave pairingsymmetry in iron-based superconductors, Phys. Rev.Lett 110, 107002 (2013) .

59.  Changan Li, Hemeng Cheng, Ruofan Chen, Tianxing Ma*, Li-Gang Wang, Yun Song,Hai-Qing Lin, Electronic band gaps andtransport properties in aperiodic bilayer graphene superlattices of Thue-Morsesequence, Appl. Phys. Lett.103, 172106 (2013).

60.  Yang Wu, Guangkun Liu, and Tianxing Ma*, Ground state paring correlations in the S₄ symmetricmicroscopic model for iron-based superconductors, EurophysicsLetters  104, 27013 (2013).

61.  Shuang Wu,Jinling Li, Pan Gao, Ying Liang*, and Tianxing Ma*, Numerical study of magnetic and pairing correlation in bilayertriangular lattice, J. Phys.: Condens. Matter 25,375601 (2013).  

62. Hai-Qing Lin, Tianxing Ma, and Zhongbing Huang, Quantum Monte Carlo study of magnetic andsuperconducting properties of graphene, Math.Meth. Appl. Sci. doi: 10.1002/mma.2851 (2013)

63.  Tianxing Ma, Chun Liang, Li-Gang Wang, Hai-Qing Lin, Electronic band gaps and transport inaperiodic graphene superlattices of Thue-Morse sequence, Appl. Phys. Lett. 100,252402 (2012).   

64.  Tianxing Ma, Suhang Liu, Pan Gao, Zhongbing Huang andHai-Qing Lin, Ferromagnetic fluctuationin doped armchair graphene nanoribbons, J. Appl.Phys. 112, 073922 (2012).

65.  Fei Wang, Qin Liu, Tianxing Ma*,Xunya Jiang, Impurity-induced boundstates in superconductors with topological order, J.Phys.: Condens. Matter 24, 455701(2012).

66.  TianxingMa, Zhongbing Huang,Feiming Hu and Hai-Qing Lin, Pairing ingraphene: A quantum Monte Carlo study, Phys. Rev.B 84, 121410 (R) (2011).

67.  F. M. Hu, Tianxing Ma, Hai-QingLin, and J. E. Gubernatis, Magnetic impuritiesin graphene, Phys. Rev. B 84, 075414 (2011).

68.  TianxingMa, Resonant spin polarization in a two-dimensional hole gas: Effect of theLuttinger term, structural inversion asymmetry and Zeeman splitting, ModernPhysics Letters B 25, 1259 (2011).

69.  TianxingMa, Feiming Hu, ZhongbingHuang and Hai-Qing Lin, Controllabilityof ferromagnetism in graphene, Appl. Phys. Lett. 97, 112504 (2010).

70.  Zhiwang, Tianxing Ma*, Shi-Jian Gu and Haiqing Lin, Reduced fidelity in Kitaev honeycomb model, Phys. Rev. A 81, 062350 (2010).  

71.  TianxingMa, Feiming Hu, ZhongbinHuang and Haiqing Lin, Magneticcorrelation in the Hubbard model on a honeycomb lattice, Comput. Phys. Comm.182, 52 (2011),

72.  Feiming Hu, Tianxing Ma, and Haiqing Lin, NumericalStudy of Geometrical Frustration: From Square to Triangular Lattices, Comput.Phys. Comm. 182 74(2011).

73.  Qin Liu, Hong Yao, Tianxing Ma, Spontaneoussymmetry breakings in two-dimensional Kagome lattice,Phys. Rev. B 82, 045102 (2010).

74.  Qin Liu and Tianxing Ma, Classical spinsin topological insulators, Phys. Rev. B 80, 115216 (2009).

75.  Feiming Hu, Shiquan Su, Tianxing Ma, and Hai-Qing. Lin, Magnetic properties of bilayer triangularlattice,Phys. Rev. B 80, 014428 (2009).

76.  TianxingMa, Balazs Dora, NMR relaxation rate and static spinsusceptibility in graphene, Preprint, arXiv: 0802.2387 (2008).

77.  Yi Li, TianxingMa and Ruibao Tao, Extra Current andInteger Quantum Hall Conductance in the Spin-Orbit Coupling System, Europhysics Letters 83,27002 (2008).

78.  Qin Liu, Tianxing Ma and Shou-Cheng Zhang, Spin accumulation from the non-Abelian Aharonov-Bohm effect, Phys. Rev. B 76,233409 (2007).

79.  TianxingMa, Qin Liu, Spin Hall conductance of the two-dimensionalhole gas in a perpendicular magnetic field, Phys.Rev. B 73, 245315 (2006).

80.  TianxingMa, Qin Liu, Sign changes and resonance of intrinsic spinHall effect in two-dimensional hole gas, Appl.Phys. Lett., 89, 112102 (2006).

81.  Shiping Feng, Tianxing Ma, Xintian Wu, Enhancementof commensurate magnetic resonance energy by the additional second neighborhopping t’ in cuprate superconductors, Phys. Lett.A 352, 438 (2006).

82.  Shiping Feng, Tianxing Ma, Enhancement ofsuperconducting transition temperature by the additional second neighbor hopingt' in the t-J model, Phys. Lett. A 350, 138 (2006).

83.  Shiping Feng, Tianxing Ma, Huaiming Guo, Magneticnature of superconductivity in doped cuprates, PhysicaC 436, 14 (2006).

84.  TianxingMa, Shiping Feng, The charge asymmetry in superconductivity ofhole- and electron-doped cuprates, Phys. Lett. A 339, 131 (2005).

85.  TianxingMa, Huanming Guo andShiping Feng, Doping dependence of chargedynamics in electron-doped cuprates, Phys. Lett. A337, 61 (2005).

86.  TianxingMa, Huaiming Guo andShiping Feng, Charge transport inelectrondoped cuprates, Int. J. Mod. Phys. B 19, 59-61 (2005).

87.  Tianxing Ma, Shiping Feng, Unusual c-axis charge dynamics in underdoped cuprates, Int. J. Mod. Phys. B 19,95-98 (2005).

88.  TianxingMa, Shiping Feng, Unusual heat transport in underdopedcuprates, Phys. Lett. A 328, 212 (2004). 

89.  TianxingMa, Huaiming Guo, ShipingFeng, Interplay between single particlecoherence and kinetic energy driven superconductivity in doped cuprates, Mod. Phys. Lett. B 18,895 (2004).

90.  ShipingFeng, Jihong Qin, and Tianxing Ma, Agauge invariant dressed holon and spinon description of the normal-state ofunderdoped cuprates, J. Phys. Condens. Matter16, 343 (2004).

91.  Shiping Feng, Tianxing Ma, and Jihong Qin, Gaugeinvariant dressed holon and spinon in doped cuprates, Mod. Phys. Lett. B 17,361-373 (2003).

92.  Ying Liang, Tianxing Ma, Shiping Feng and Wei YeuChen, Unusual charge transport and spinresponse of doped bilayer triangularantiferromagnets, Commun. Theor. Phys. 39, 749-756 (2003).

93.  Ying Liang, Tianxing Ma, Shiping Feng,Incommensurate antiferromagnetism in the Extended t-J Model, Commun. Theor.Phys. 38, 617-620 (2002).

94.  马天星，梁颖，冯世平，扩展的t-J模型中的非公度反铁磁自旋关联，Incommensurate antiferromagnetic spin correlation in the extendedt-J Model, 低温物理学报Chinese Journal of Low Temperature Physics, 25, p146-150(2003) .

冯博，张玉，马天星*，梁颖，石墨烯反铁磁自旋关联的数值研究，北京师范大学学报（自然科学版），47， 569（2011)

第一作者为2007级本科生，第二作者为2008级本科生.

Tianxing Ma, Chun Liang, Li-Gang Wang, Hai-Qing Lin, Electronic band gaps and transport in aperiodic graphene superlattices of Thue-Morse sequence, Appl. Phys. Lett. 100, 252402 (2012)

第二作者为2009级本科生。

Fei Wang, Qin Liu, Tianxing Ma*, Xunya Jiang, Classical Spins in Generic Topological Insulators and Topological Superconductors, J. Phys.: Condens. Matter 24, 455701 (2012).

第一作者为2008级本科生。

Tianxing Ma*, Suhang Liu, Pan Gao, Zhongbing Huang and Hai-Qing Lin, Ferromagnetic fluctuation in doped armchair graphene nanoribbons, J. Appl. Phys. 112, 073922 (2012).

第二作者和第三作者为2010级本科生。

Pan Gao, Suhang Liu, Lin Tian, and Tianxing Ma*, Quantum Monte Carlo study of magnetic correlation in graphene nanoribbons and quantum dot, Modern Physics Letters B 27, 1330016(2013).

第一、第二、三作者为2010级本科生。

Shuang Wu, Jinling Li, Pan Gao, Ying Liang, and Tianxing Ma*, Numerical study of magnetic and pairing correlation in bilayer triangular lattice, J. Phys.: Condens. Matter 25, 375601 (2013).

第一作者为2009级本科生，第二、三作者为2010级本科生。

Changan Li, Hemeng Cheng, Ruofan Chen, Tianxing Ma*, Li-Gang Wang*, Yun Song, Hai-Qing Lin, Electronic band gaps and transport properties in aperiodic bilayer graphene superlattices of Thue-Morse sequence , Appl. Phys. Lett. 103, 172106 (2013) .

第一、二作者为2010级本科生，第三作者为2009级本科生。

Hemeng Cheng, Changan Li, Tianxing Ma*, Li-Gang Wang*, Yun Song, Hai-Qing Lin, Electronic Bloch oscillation in bilayer graphene gradient superlattices , Appl. Phys. Lett. 105, 072103 (2014).

Peng Wang, Xinran Ma, Jingyao Wang, Yamei Zeng, Ying Liang*, and Tianxing Ma, Character of frustration on magnetic correlation in doped Hubbard model , Eur. Phys. J. B 89, 38 (2016).

第一、二、三作者为2012级本科生。

Shuaiyu Li, Lin Tian, Lingli Shi, Lin Wen and Tianxing Ma*, Ferromagnetic properties in low doped zigzag graphene nanoribbons , J. Phys.: Condens. Matter 28, 086001 (2016).

第一、二、三作者为2012级本科生。

Xiong Fan, Wenjun Huang, Tianxing Ma*, Li-Gang Wang*, and Hai-Qing Lin, Electronic band gaps and transport properties in periodically alternating mono- and bi-layer graphene superlattices , EPL 112, 58003 (2015).

第一作者为2013级本科生。

Xiong Fan, Wenjun Huang, Tianxing Ma*, and Li-Gang Wang, Tunable Electronic Band Structures and Zero-Energy Modes of Heterosubstrate-induced Graphene Superlattices , Phys. Rev. B 93, 165137 (2016).

第一作者为2013级本科生。