教师信息

教师姓名:邱春印
单 位
职 称 教授
学 历
E-mail cyqiu@whu.edu.cn
研究方向 人工结构与声波的相互作用

详细描述

 

 

教授,博士生导师 

 

物理学院,5-321
Email: cyqiu@whu.edu.cn
 
 
学习工作经历:分别于20022005年获武汉大学本科、硕士学位,2009年获香港科技大学博士学位。2005.5-2006.2 & 2009.2-2009.8 & 2011.1-2011.3,在香港科技大学进行访问研究。2012-至今,在武汉大学物理科学与技术学院任副教授、博士生导师;2011年入选湖北省楚天学子人才计划
 
主要承担课程:1. 讲授弘毅班数学物理方法课;2. 组织研究生凝聚态物理前沿课;3. 共同讲授研究生凝聚态物理课。
 
研究兴趣:人工结构对声波的新奇调控;声波诱导的多体相互作用力及其动力学特性;低维超导体中的抗磁、比热以及电阻特性;一级相变成核动力学特性;微流体多尺度建模。
 
研究方向简介:近年来,我们课题组的主要研究方向是“理论和实验研究人工结构与声波的相互作用”。(1)基于波的共性,声波在人工结构中会出现和电子体系类似的波动行为,例如带隙等。因此,我们的研究目标之一是探索声波在这种人工结构中奇特的声波传输行为,例如声波的负折射、声波的遂穿、声波拓扑绝缘体等基础物理现象。相比于电子体系,声波人工结构是宏观体系,容易操控且允许新的可能性,例如任意形状的的“人工原子”等。(2)众所周知,声学是重要的应用学科之一,在生物医学成像、无损检测、深海探测等方面有不可取代的作用。因此,我们的目标之二是,设计人工结构以获得独特的声波调控能力,例如让声束准直传播或任意拐弯、声波超分辨成像等。(3)一方面,声波会受人工结构的调制(如以上所述);一方面,声波也会对其中的粒子或物体产生力学相互作用。和通常意义上的粒子相互作用不太一样,这种相互作用可受声场形态的调控,从而预期新的物理现象及实际应用,这是我们第三个研究目标。
 
成果简介:在Nature Phys、PRLPRBAPL等著名物理学术期刊上发表SCI论文68篇,其中以第一作者或通讯作者身份发表Nature Phys. 1篇,PRL 2篇,PRB 9篇,JCP 2篇,APL 7篇,以及Sci. Rep.、JAP & EPL等其他期刊16篇。Web of Science数据显示,这些论文他引1000余次(H-index = 19);Google Scholor数据显示,总引用超过1800次(H-index=23)。获批自然科学青年基金、面上基金等7项。为Nature子刊、PRL、PRB等20余学术期刊承担审稿服务。
 
共同指导的研究生获奖情况:全国百优提名奖、国家奖学金、理论物理中心特等奖、湖北省物理学会论文一等奖等
 
研究生毕业去向:部分留在高校、研究所或者出国做博后,部分在大型通讯公司做研发、管理工作
 

研究生招生要求: 

1. 读研动机明确,目标清晰,积极主动。 2. 好奇心强,敢于质疑,勤奋专注。3. 有一定的知识积累,较好地掌握数学物理方法,电动力学,量子力学,固体物理,光学等物理核心课程。4. 凝聚态物理专业硕博连读
  
本科生业余科研要求:
目标明确,持之以恒!
 
部分论文(* 标记通讯作者):

1.      Jiuyang Lu, Chunyin Qiu*, Liping Ye, Xiying Fan, Manzhu Ke, Fan Zhang, and Zhengyou Liu*, Observation of topological valley transport of sound in sonic crystals, Nature Physics, DOI: 10.1038/nphys3999.

2.      Jiuyang Lu, Chunyin Qiu*, Manzhu Ke, and Zhengyou Liu*, Valley vortex states in sonic crystals, Phys. Rev. Lett., 116, 093901 (2016) [Highlighted as Editors’ Suggestion in PRL and also selected as Research Highlight in Nature Physics 12, 287 (2016)].

3.      Yixiang Li, Chunyin Qiu*, Shengjun Xu, Manzhu Ke, and Zhengyou Liu*, Large-angle bending transportation of microparticles by acoustic half-Bessel beams, Sci. Rep. 5:13063, DOi: 10.1038/srep13063.

4.      Jiuyang Lu, Chunyin Qiu*, Manzhu Ke, and Zhengyou Liu*, Directional excitation of the designer surface acoustic waves, Appl. Phys. Lett. 106, 201901 (2015).

5.      Kun Tang, Chunyin Qiu*, Manzhu Ke, Jiuyang Lu, Yangtao Ye, and Zhengyou Liu*, Anomalous refraction of airborne sound through ultrathin metasurfaces, Sci. Rep. 4, 6517; DOI: 10.1038/srep06517 (2014).

6.      Chunyin Qiu, Shengjun Xu, Manzhu Ke, and Zhengyou Liu, Acoustically induced strong interaction between two periodically patterned elastic plates, Phys. Rev. B 90, 094109 (2014).

7.      Jiuyang Lu, Chunyin Qiu*, Shengjun Xu, Yangtao Ye, Manzhu Ke, and Zhengyou Liu*, Dirac cones in two-dimensional artificial crystals, Phys. Rev. B 89, 134302 (2014).

8.      Chunyin Qiu*, Sucheng Li, Ruirui Chen, Bo Hou, Feng Li, and Zhengyou Liu, Deep subwavelength electromagnetic transparency through dual metallic gratings with ultranarrow slits, Phys. Rev. B 87, 205129 (2013).

9.      Rui Hao, Chunyin Qiu*, Yangtao Ye, Chunhui Li, Han Jia, Manzhu Ke, and Zhengyou Liu, Transmission enhancement of acoustic waves through a thin hard plate embedded with elastic inclusions, Appl. Phys. Lett. 101, 021910 (2012).

10.  Chunyin Qiu*, Rui Hao, Feng Li, Shengjun Xu, Zhengyou Liu, Broadband Transmission Enhancement of Acoustic Waves through a Hybrid Grating, Appl. Phys. Lett. 100, 191908 (2012).

11.  Zhaojian He, Shasha Peng, Rui Hao, Chunyin Qiu*, Manzhu Ke, Jun Mei, and Zhengyou Liu*, Extraordinary acoustic reflection enhancement by acoustically-transparent thin plates, Appl. Phys. Lett. 100, 091904 (2012).

12.  Zhaojian He, Han Jia, Chunyin Qiu*, Yangtao Ye, Rui Hao, Manzhu Ke, and Zhengyou Liu*, Nonleaky surface acoustic waves on a textured rigid surface, Phys. Rev. B 83, 132101 (2011).

13.  Zhaojian He, Han Jia, Chunyin Qiu*, Shasha Peng, Xuefei Mei, Feiyan Cai, Pai Peng, Manzhu Ke, and Zhengyou Liu*, Acoustic Transmission Enhancement through a Periodically Structured Stiff Plate without Any Opening, Phys. Rev. Lett. 105, 074301 (2010).

14.  Chunyin Qiu and Tiezheng Qian, Nucleation of wetting films on cylindrical and spherical substrates: A numerical study by the string method, J. Chem. Phys. 131, 124708 (2009).

15.  Chunyin Qiu and Tiezheng Qian, Numerical study of the phase slips in ultrathin doubly connected superconducting cylinders, Phys. Rev. B 79, 054513 (2009).

16.  Rolf Lortz, Qiucen Zhang, Wu Shi, Jianting Ye, Chunyin Qiu, Zhe Wang, Hongtao He, Ping Sheng, Tiezheng Qian, Zikang Tang, Ning Wang, Xixiang Zhang, Jiannong Wang, and C. T. Chan, Superconducting characteristics of 4A carbon nanotube-zeolite composite, PNAS, 106, 7299 (2009). [This paper was highlighted.]

17.  Chunyin Qiu, Tiezheng Qian, The application of string method to the study of critical nuclei in capillary condensation, J. Chem. Phys. 129, 154711 (2008).

18.  Tiezheng Qian, Chunyin Qiu, and Ping Sheng, A Scaling Approach to the Derivation of Hydrodynamic Boundary Conditions, J. Fluid Mech. 611, 333 (2008).

19.  Chunyin Qiu, Tiezheng Qian, Numerical study of the phase slip in two-dimensional superconducting strips, Phys. Rev. B 77, 174517 (2008).

20.  Chunyin Qiu, Tiezheng Qian, and Weiqing Ren, Phase slips in superconducting wires with nonuniform cross section: A numerical evaluation using the string method, Phys. Rev. B 77, 104516 (2008).

21.  Chunyin Qiu, Tiezheng Qian and Ping Sheng, Meissner effect simulation in coupled one-dimensional superconducting wires: Monte Carlo simulations, Phys. Rev. B. 75, 024504 (2007).

22.  Yiqun Ding, Zhengyou Liu, Chunyin Qiu and Jing Shi, Metamaterial with Simultaneously Negative Bulk Modulus and Mass-Density, Phys. Rev. Lett. 99, 093904 (2007).

23.  Degang Zhao, Zhengyou Liu, Chunyin Qiu, Zhaojian He, Feiyan Cai and Manzhu Ke, Surface acoustic waves in two-dimensional phononic crystals: Dispersion relation and the eigenfield distribution of surface modes, Phys. Rev. B. 76, 144301 (2007).

24.  Jing Li, Zhengyou Liu and Chunyin Qiu, Negative refraction imaging of acoustic waves by a two dimensional three-component phononic crystal, Phys. Rev. B. 73, 054302 (2006).

25.  Chunyin Qiu and Zhengyou Liu, Acoustic directional radiation and enhancement caused by band-edge states of two dimensional phononic crystals, Appl. Phys. Lett. 89, 063106 (2006).

26.  Manzhu Ke, Zhengyou Liu, Chunyin Qiu, Wengang Wang, Jing Shi, Weijia Wen and Ping Sheng, Negative-refraction imaging with two-dimensional phononic crystal, Phys. Rev. B. 72, 064306 (2005).

27.  Chunyin Qiu, Zhengyou Liu and Jing Shi, Directional acoustic source based on resonant cavity of phononic crystal, Appl. Phys. Lett. 86, 224105 (2005).

28.  Chunyin Qiu, Zhengyou Liu, Jun Mei and Jing Shi, Mode-Selecting acoustic filter by using resonant tunneling states, Appl. Phys. Lett. 87, 104101 (2005).

29.  Chunyin Qiu, Zhengyou Liu, Jun Mei and Manzhu Ke, The layer multiple-scattering method for calculating transmission coefficients of 2D phononic crystals, Solid state communications, 134, 765 (2005).

30.  Chunyin Qiu, Xiangdong Zhang and Zhengyou Liu, Far-field imaging of acoustic waves by two-dimensional sonic crystal, Phys. Rev. B. 71, 054302 (2005).

 

 

 

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