当前位置: 首页>>科研工作>>科研团队>>正文
凝聚态物理科研团队简介
2016-06-17  

1、基本情况

    凝聚态物理学是从微观角度出发,研究由大量粒子(原子、分子、离子、电子)组成的凝聚态的结构、动力学过程及其与宏观物理性质之间的联系的一门学科。凝聚态物理是以固体物理为基础的外向延拓。

    众所周知,复杂多样的物质形态基本上分成三类:气态、液态和固态,在这三种物态中,凝聚态物理研究的对象就占了二个,这就决定了这门学科的每一步进展都与我们人类的生活休戚相关。从传统的各种金属、合金到新型的各种半导体、超导材料,从玻璃、陶瓷到各种聚合物和复合材料,从各种光学晶体到各种液晶材料等等;所有这些材料所涉及到的声、光、电、磁、热等特性都是建立在凝聚态物理研究的基础上的。凝聚态物理研究还直接为许多高科学技术本身提供了基础。当今正蓬勃发展着的微电子技术、激光技术、光电子技术和光纤通讯技术等等都密切联系着凝聚态物理的研究和发展。

    凝聚态物理以万物皆成于原子为宗旨,以量子力学为基础研究各种凝聚态,这是一个非常雄心勃勃的举措。凝聚态物理这个学科名称的诞生仅仅是最近几十年的事。目前已形成了比固体物理学更广泛更深入的理论体系。特别是八十年代以来,凝聚态物理学取得了巨大进展,研究对象日益扩展,更为复杂。一方面传统的固体物理各个分支如金属物理、半导体物理、磁学、低温物理和电介质物理等的研究更深入,各分支之间的联系更趋密切;另一方面许多新的分支不断涌现,如强关联电子体系物理学、无序体系物理学、准晶物理学、介观物理与团簇物理等。从而使凝聚态物理学成为当前物理学中最重要的分支学科之一。

2、团队成员:

   康秀宝,李海东,丁俊,李瑞雪,田兴玲

3、主持国家级科研项目:

1.国家自然科学基金青年基金项目,11304078、含光栅低维异质结构的电磁波传输特性、2014/01-2016/1226万元、在研、康秀宝主持。

2.国家自然科学基金理论物理专项,11347187、石墨烯与铁电材料衬底之间界面效应的第一性原理研究、2014/01-2014/125万元、结题、丁俊主持。

3.国家自然科学基金理论物理专项,11147139、石墨烯量子波导结构中的电子输运性质、2012/01-2012/125万元、结题、李海东主持。

4、发表科研论文(SCI

(1) Xiu-Bao Kang*, Lan-Jun Liu, Hai Lu Hai-Dong Li and Zhi-Guo Wang, “Guided

Bloch surface wave resonance for biosensor designs,” Journal of the Optical Society

of America. A, Optics, image science, and vision, 2016, 33(5): 997-1003.

(2) Xiu-Bao Kang*, Hai-Dong Li, Jun Ding, and Zhi-Guo Wang, Fano resonance

and step-like transmission via guide-mode resonance structure, Opt. Lett., 2013, 38(5):715-717.

(3) Xiu-Bao Kang , Wei Tan, Zhan-Shan Wang, Zhi-Guo Wang *, Hong Chen,

High Efficiency One-Way Transmission by One-Dimensional Photonic Crystals

CHIN. PHYS. LETT., 2010, 27(7): 074204(1-4).

(4) Xiubao Kang, Wei Tan, Zhiguo Wang*, and Hong Chen, Optic Tamm states:

The Bloch-wave-expansion method, Phys. Rev. A, 2009, 79(4): 043832(1-7).

(5) Haidong Li*, RuixueLi, QiongyanYu, Xiubao Kang, Line defect induced conductance suppression in graphene nanojunction, Solid State Communications, 2016, 233, 18–23.

(6) Haidong Li*, Lili Zheng, Xiubao Kang, The transport of spin electron through a right-angle graphene nanojunction, Physica B, 2013, 409, 30-34.

(7) Haidong Li*, Haijun Li, Yisong Zheng, Jinzhong Niu, Electron transport of step-shaped graphene nanoribbon, Physica B, 2011, 406, 1385-1388.

(8) Haidong Li*, Niucan Liu, Yisong Zheng, Fang Wang, Haoshan Hao, Transmission through a metallic T-shaped graphene nanoribbon, Physica B, 2010, 405, 3316-3319.

(9) Haidong Li, Lin Wang, Zhihuan Lan, and Yi-Song Zheng*, Generalized transfer matrix theory on electronic transport through graphene waveguide, Phys. Rev. B, 2009, 79 155429(12).

(10) Haidong Li, Lin Wang, and Yi-Song Zheng*, Suppressed conductance in a metallic graphene nano-junction, J. Appl. Phys, 2009, 105, 013703(6).

(11) Haidong Li and Yi-Song Zheng*, Contact conductance between graphene and quantum wires, Phys. Lett. A, 2009, 373, 575-582.

(12) Jun Ding*, LiWei Wen, XiuBao Kang, HaiDong Li, JianMin Zhang, Polar and nonpolar structures of BiCrO3 from first-principles calculations, Computational Materials Science, 2015, 96,219-222.

(13) Jun Ding*, Liwei Wen, Haidong Li, Xiubao Kang and Jianmin Zhang, First principles investigation of graphene on ferroelectric LiNbO(3)(001) surface, Europhysics Letters,2013, 104, 17009.

(14) Jun Ding, Liwei Wen, Xiubao Kang, Haidong Li, et.al, “Polar and nonpolar structures of BiCrO3 from first-principles calculations”, Computational Materials Science,96,219-222(2015).

(15) Jun Ding, Xiubao Kang, Liwei Wen, Haidong Li, “Magnetic and Ferroelectric Properties of BiCrO3 from First-Principles Calculations”, Chin. Phys. Lett. 31,107501(2014).

(16) Jun Ding, Haisheng Li, Liwei Wen, Xiubao Kang, Haidong Li, et.al, “Electronic and magnetic properties of an organic multiferroic: (C2H5NH3)2CuCl4”, Journal of Magnetism and Magnetic Materials, 346, 91-95 (2013).

(17) Rui-Xue Li*, Yun Ni, Hai-Dong Li, Xing-Ling Tian, Kai-Lun Yao and Hua-Hua Fu, Thermoelectric transport through a zigzaglike chain: influence of the chain length, the interdot tunneling and the intradot Coulomb interaction, Physica B: Condensed Matter. 2016, 493: 1-6.

(18) R.-X. Li, S.-L. Wang, Y. Ni, K.-L. Yao* and H.-H. Fu, 0-, and 2/3-magnetization plateau in three-leg antiferromagnetic Heisenberg spin-1/2 ladders with leg-dimerization, Physics Letters A, 2014, 378 (13): 970-974.

(19) R.-X. Li, S.-L. Wang, Y. Ni, K.-L. Yao* and H.-H. Fu, Asymmetric field dependence of specific heat in two-leg Heisenberg antiferromagnetic spin ladders with asymmetric leg interactions, Solid State Communications, 2014, 186: 42–45.

(20) R.-X. Li, S.-L. Wang, K.-L. Yao* and H.-H. Fu, Ground-state properties and quantum entanglement in rung-dimerized spin-1/2 antiferromagnetic ladder, Physics Letters A2013377 (37): 2422-2427.

(21) Xingling Tian, Zaixing Yang, Bo Zhou, Peng Xiu*, and Yusong Tu*.

Alcohol-induced Drying of Carbon Nanotubes and its Implications for Alcohol/Water

Separation: A Molecular Dynamics Study, J. Chem. Phys., 2013, 138: 204711(1-8).

(22) Xingling Tian, Zhigang Wang, Zaixing Yang, Peng Xiu*, and Bo Zhou*.

Adsorptive Separation of Ethylene/Ethane Mixtures Using Carbon Nanotubes: A

Molecular Dynamics Study, J. Phys. D: Appl. Phys., 2013, 46: 395302(1-10).

关闭窗口

地址:河南省郑州市新郑龙湖祥和路1号综合楼5楼东侧

电子邮件:slkxx@.126.com|电话:0371-62509171|邮编:451191

河南工程学院 理学院 版权所有