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張軍

(新疆大學物理科學與技術學院教授,博士生導師)

鎖定
張軍,男,1962年1月出生,漢族,理學博士,教授,博士生導師,國家教育部物理類專業教學指導委員會委員,新疆物理學會副理事長,新疆大學名師,長期承擔本科生和研究生的《量子力學》和《量子場論》等多門課程的教學工作。1997年赴意大利國際理論物理中心訪問(ICTP)一個月,1998至1999年赴美國BROOKHAVEN國家實驗室(BNL)科研合作近兩年年。主要研究方向為數學物理、低維場論、強關聯繫統和量子輸運。主持國家自然科學基金7項和教育部重點項目1項,在Phys. Lett. A、 J. Phys.: Condens. Matter和Phys. Chem. Chem. Phys. 等國際知名期刊上發表論文100餘篇。研究成果獲自治區自然科學優秀學術論文獎。 [1] 
中文名
張軍
國    籍
中國
民    族
漢族
出生日期
1962年1月
學位/學歷
理學博士
職    業
教師
性    別

目錄

  1. 1 科研項目
  2. 2 獲獎情況
  3. 3 學術論文

張軍科研項目

[1] 單雙層混合石墨烯中界面態的量子輸運與調控研究(11564038),國家自然科學基金,2016.01-2019.12,46.00萬,主持人,
[2] 通過擴展Hubbard模型研究低維關聯電子系統的量子特性(11265015),國家自然科學基金,2013.01-2016.12,53.00萬,主持人;
[3] 新疆大學凝聚態理論和量子場論學術交流及人才培養(11247608),國家自然科學基金,2013.01-2013.12,20.00萬,主持人;
[4] 新疆大學理論物理和計算材料科學的人才培養與學術交流(11347604),國家自然科學基金項目,2014.01-2014.12,20.00萬,主持人;
[5] 理論物理學術交流及人才培養平台的建設(11147607),國家自然科學基金,2012.01-2012.12,20.0萬,主持人;
[6] 低維量子阻銼自旋和巡遊電子系統的非微擾研究(10547010),國家自然科學基金,2006.01–2008.12,10.00萬,主持人;
[7] 可積模型和低維場論在凝聚態物理中的應用(205181),教育部科學技術研究重點項目,2005.01–2007.12,2.00萬,主持人;
[8] 低維量子阻銼自旋系統的非微擾研究(10247010), 國家自然科學基金,2003.01-2005.12,10.00萬,主持人; [1] 

張軍獲獎情況

[1] 2016年,第十四屆新疆維吾爾自治區自然科學優秀學術論文二等獎(排名3);
[2] 2016年,第十四屆新疆維吾爾自治區自然科學優秀學術論文三等獎(排名2);
[3] 2014年,第十三屆新疆維吾爾自治區自然科學優秀學術論文二等獎(排名2). [1] 

張軍學術論文

(SCI論文47篇,加*號為通訊作者)
[47] L. F. Jiang, L. Xu, J. Zhang*, “Electronic properties of armchair graphene nanoribbons under uniaxial strain and electric field”, Int. J. Mod. Phys. B, accepted, 2018.
[46]N. Zhao, H. Q. Ding, J. Zhang, Y. D. He, “A low-energy physics of an extended Hubbard chain with additional three-body couplings” Chin. J. Phys. In Press, (2018)
[45] P. P. Ye, L. Xu, J. Zhang*, “Semi-Dirac point and its transport properties in two-dimensional deformed hexagonal lattice”, Int. J. Mod. Phys. B, 32(17): 1850193 (2018).
[44] H. Q. Ding, J. Zhang*, “Investigation of a four-body coupling in the one-dimensional extended Penson-kolb-Hubbard model”, Phys. Lett. A, 2017, 381(36): 3119-3123.
[43] X. H. Yu, L. Xu, J. Zhang*, “Topological state engineering by in-plane electric field in graphene nanoribbon”, Phys. Lett. A, 381,2841-2844.
[42] X. L. Zhang, L. Xu, Jun Zhang*, “Valley-filtered edge states and quantum valley Hall effect in gated bilayer graphene” J. Phys.: Conden. Matter, 29, 185502, (2017).
[41] H. Q. Ding, J. Zhang*, “Superconducting phases in a generalized Hubbard chain with additional off-diagonal hopping processes”, Int. J. Mod. Phys. B, 31,1750058 (2017)
[40] H. Q. Ding, J. Zhang*, “From insulator to superconductor in a modified t-J chain with regulated electron electron hopping”. J. Low. Temp. Phys. 186,10-20 (2017).
[39] H. Q. Ding, J. Zhang*, “Superconductivity in a one-dimensional correlated quantum system”, Mod. Phys. Lett. B, 2016, 30(19): 1650231.
[38] H. Q. Ding, J. Zhang*, Metal-insulator transition in an one-dimensional extended Hubbard model at quarther filling. Chin. J. Phys. 2016, 54(2):237-243.
[37]. H. Q. Ding, J, Zhang*, “Insight into nearest neighboring three- and four-electron orocesses in a one-dimensional correlated lattice system”, J. Phys. Soc. Jpn. 2016, 85(5): 054704.
[36] H. Q. Ding, J. Zhang*, “Superconductivity in a SO(4) symmetric one-dimensional interacting system with diadonal three-body attraction”, Chin. J. Phys. 2016, 54(5):744.
[35] H. Q. Ding, J, Zhang*, “Investigation of the ground state of the anisotropic extended Hubbard chain at weak coupling”, Phys. Lett. A, 2016, 380(40): 3292-3296.
[34] LP Li,ZH Yang, BH Lei, QR Kong, MH Lee, BB Zhang, SL Pan, J Zhang*, “Active performance of tetrahedral groups to SHG response: theoretical interpretations of Ge/Si-containing borate crystals”, Phys. Chem. Chem. Phys.,18, 6077-6084 (2016)
[33] M. M. Zhang, L. Xu, J. Zhang*, “Topological states in two-dimensional hexagon lattice bilayers”, Physics Letters A, 380,3389 (2016).
[32] F. Zhao, L. Xu, J. Zhang*, “Manipulating interface states in monolayer-bilayer graphene planar junctions”, Journal of Physics: Condensed Matter, 28, 1 (2016).
[31] LP Li, Q Jing, ZH Yang, , X Su, BH Lei, SL Pan, FF Zhang, J Zhang, “Effect of the tetrahedral groups on the optical properties of LaBRO5 (R = Si and Ge): A first-principles study”, J. Appl. Phys., 118, 113104 (2015).
[30] C. C. Li, L. Xu, J. Zhang*, “Quantized transport of interface and edge states in bent graphene”, Solid State Communications, 207, 30 (2015).
[29] L. Xu, Y. Zhou, J. Zhang*, “From helical state to chiral state in ferromagnetic bilayer graphene”, Solid State Communications, 212, 41 (2015).
[28] E. Y. Lin, H. Q. Ding, J. Zhang*, “Ground state phase diagram of an extended Hubbard chain with spin-dependent interaction”, Chin. J. Phys., 53, 040402 (2015).
[27] H. Q. Ding, J, Zhang*, “Triplet superconductivity in the one-dimensional Hubbard model with modulated kinetic hopping at weak coupling”’, J. Phys. Soc. Jpn., 84, 124703 (2015).
[26] H. Q. Ding, J, Zhang*, “Influence of the modulated hopping on the one-dimensional interacting electron system”, Phys. Lett. A, 379, 2374 (2015)
[25] P. Li, H. Q. Ding, J. Zhang*, “Quantum of a deformred itinerant electron model in one dimension”, Chin. J. Phys., 53, 100803 (2015)
[24] Chu Chen, Weixin Kong, Hai-Ming Duan, Jun. Zhang*, “Theoretical simulation of the reduction of graphene oxide by lithium naphthalenide” Phys. Chem. Chem. Phys., 17, 13654-13658 (2015)
[23] H. Q. Ding, J, Zhang*, “Evolution of dimerized phase in a one-dimensional correlated electron”, Eur. Phys. J. B, 88, 44 (2015)
[22] Ming-Ming Zhang, Lei Xu, Jun Zhang* “Topological insulator state in gated bilayer silicene” Journal of Physics: Condensed Matter, 27, 445301 (2015)
[21] E. Y. Lin, H. Q. Ding, J. Zhang*, “Influence of spin exchange anisotropy on phase diagram of the one-dimensional t-U-VJ-JZ model”, Mod. Phys. Lett. B, 28, 1450042 (2014)
[20] H. Q. Ding, J. Zhang*, “Modulating effect of pair-hopping and spin exchange interactions on a half-filled generalized U-V chain”, Mod. Phys. Lett. B, 28, 1450069 (2014)
[19] Chu Chen, Weixin Kong, Hai-Ming Duan, Jun. Zhang* “Theoretical simulation of reduction mechanism of graphene oxide in sodium hydroxide solution” Phys. Chem. Chem. Phys., 16, 12858-12864 (2014)
[18] H. Q. Ding, J. Zhang*, “Phase diagram of an extended t-U-J chian with frustrated exchange interaction”, Int. J. Mod. Phys. B, 28, 1450228 (2014)
[17] C. Chen, J. Zhang*, B. Zhang, H. M. Duan “Hydrogen Adsorption of Mg Doped Graphene Oxide: A First-Principles Study” J. Phys. Chem. C, 117, 4337-4344 (2013)
[16] B. Zhang*, B. B. Cao, C. Chen, J. Zhang, H. M. Duan* “Density-functional theory study on neutral and charged MnC2 (M=Fe, Co, Ni, Cu, n=1-5) clusters” Journal of Cluster Science, 24, 197-207 (2013)
[15] H. Q. Ding, J. Zhang*, “Ground state properties of an extended Hubbard chain with easy-axis magnetic anisotropy”, Chin. J. Phys. 51, 1006-1018 (2013)
[14] H. Q. Ding, J. Zhang*, “Effect of singlet pairing hopping on the one-dimensional extended model with spin exchange interaction.”, Eur. Phys. J. B, 85, 200 (2012)
[13] H. Q. Ding, J. Zhang*, “Effect of correlated-hopping interaction on a one-dimensional extended Hubbard model with spin exchange interaction”, Mod. Phys. Lett. B, 26, 1150044 (2012)
[12] H. Q. Ding, J. Zhang*, “Spin gapless bond-ordered phase in the extended Hubbard chain with spin-dependent repulsion”, Int. J. Mod. Phys. B, 25, 3555-3568 (2011)
[11] H. Q. Ding, J. Zhang*, “Phase diagram of one-dimensional deformed t-J1-J2 model with frustrated exchange interaction”, Mod. Phys. Lett. B, 25, 1441-1455 (2011)
[10] Yan huahua, Ma qingshan, Zhang Jun*, “Mott-Hubbard transition of bosons in optical lattices with two-body interactions”, Chin. Phys. C, 35, 530-534 (2011).
[9] Zhang zhanjun, Ma qingshan, Zhang Jun*, “Critical temperature and condensed fraction of Bose-Einstein condensation in an external potential”. Chin. Phys. C, 35, 722-724 (2011)
[8] Z. J. Wang , C. H. Zhu, G. L. Lu, J. Zhang*, “Pulsation mode and period-luminosity relation of Mira variables”, Astrophysics and Space Science, 325, 15-23 (2010)
[7] C. H. Zhu, G. L. Lu Z. J. Wang, J. Zhang*, “Soft and supersoft X-ray sources in symbiotic stars”, New Astronomy, 15, 144-149 (2009)
[6] Shuwei Lu, Jun Zhang, Haiming Duan “Melting behaviors of CoN (N=13, 14, 38, 55, 56) clusters”, Chem. Phys. 363(1-3), 7-12 (2009)
[5] C. H. Zhu, G. L. Lu, Z. J. Wang, J. Zhang* “The lack of carbon stars in the Galactic bulge”, Chin. Phys. B, 17, 1518-1525 (2008)
[4] Lei Xu, Jun Zhang*, “Optical conductivity of two-dimensional lattice”, Mod.Phys.Lett.B, 22, 435-445 (2008)
[3] Lei Xu, Jun Zhang*, “Drude weight, optical conductivity of two-dimensional Hubbard model at half filling”, Commun. Theor. Phys., 50,237-242 (2008)
[2]Lei Xu, Jun Zhang*, “Slave-Fermion mean field theory of the Heisenberg mode”, Commun.Theor.Phys., 48, 363-365 (2007)
[1]Q. S. Ma, J. H. Dai, Z. X. Xu, J. Zhang, “Weak-coupling phase diagram of the one-dimensional deformed t-J model”, Mod. Phys.Lett.A, 22, 733-740 (2007). [1] 
參考資料
  • 1.    張軍  .-新疆大學物理科學與技術學院[引用日期2021-10-09]