考研院校库 > 厦门大学 > 导师介绍 > 正文

厦门大学电子科学与技术学院导师介绍:车凯军

作者:聚创厦大考研网-小厦老师 点击量: 712 发布时间: 2018-09-07 16:40 微信号: H17720740258



  姓名:  车凯军
  职称、职位:副教授、硕导
  邮箱:chekaijun(AT)xmu.edu.cn
  电话:0592-2580141
  办公地点:行政楼C#609B
  学历:
  华中科技大学电子科学与技术学士,微电子专业;
  中国科学院物理博士,物理电子学专业。
  研究方向:
  微腔激光器,光学非线性,微腔传感器
  主讲课程:
  电路分析-本科生基础课程
  光波导理论-研究生基础课程
  学术兼职:
  IEEE member,OSA(Optics Letters/Express等),IEEE(Journal of Quantum Electronics等),AIP(Applied Physics Letters等)特邀审稿人)
  课题项目:
  国家自然科学基金青年项目:基于MIS电容的电光调制半导体回音壁微腔激光的研究,2012.01-2014.12,主持;
  国家自然科学基金面上项目:基于Er3+: CaF2晶体回音壁模谐振腔的中红外微激光器和光学频率梳的研究,2016.01-2019.12,第二合作者;
  国家自然科学基金面上项目:胆甾相液晶微激光器的多功能化构筑及结构与性能关系研究,2016.01-2019.12,第一合作者。
  代表作:
  [1]*Che K, Tang D, Guo C, Xu, H, Ren C,Zhang P, Jiang S, Che L, Zhang D, Cai, Z, 2017. External cavity lasing pumped stimulated Brillouin scattering in a high Q microcavity, Opt. Lett. 42(5):935-938(OSA: SCI/EI).
  [2]Che K, Zhang P, Guo C, Tang D, Ren C,Xu, H, Luo, Z, Cai, Z, 2017. Ultra-high Q sphere-like cavities for cascaded stimulated Brillouin lasing, Opt. Commun., 387:421-425(Elsevier: SCI/EI).
  [3]Guo C, Che K*, Xu, H, Zhang P, Tang D, Ren C, Luo, Z, Cai* Z,2016. Generation of optical frequency combs in a fiber-ring/microresonator laser system,Opt. Lett.41(11):2576-2579(OSA: SCI/EI).
  [4]Guo C, Che K*, Zhang P, Wu, J, Huang,Y, Xu, H, Cai, Z, 2015. Low-threshold stimulated Brillouin scattering in high-Q whispering gallery mode tellurite microspheres, Opt. Express, 23(25):32261-32266(OSA: SCI/EI).
  [5]Guo C, Che K*, Cai, Z, Liu S, Gu G, Chu C, Zhang P, Fu H, Luo, Z, Xu H*, 2015. Ultralow-threshold cascaded Brillouin microlaser for tunable microwave generation, Opt. Lett., 40(21):4971-4974(OSA: SCI/EI).
  [6]Che K*, Chu C, Guo C, Zhang D, Cai Z, 2015. Polarization dependent mode dynamics of metallic hybrid laser micro- resonator, Opt. Commun., 338:128-1332(Elsevier: SCI/EI).
  [7]Liu S, Che K*, Guo C, Chu C, Zhang P, Xu H, Cai Z, 2015. Metallically coated dielectric rectangle resonator, Appl. Opt., 54(23):7027-7031(OSA: SCI/EI).
  [8]Lei M,Che K*,Guo C, Luo S,Cai Z,Waveguide modulated non-local optical interaction of semiconductor microdisks, 2014, Chinese Optics Letters, 12(7):071401(OSA: SCI/EI).
  [9]Che K, Lei M, Gu G, Cai Z, Huang Y, 2013. Optical processing between two metallically hybrid microdisks,Appl. Opt.52(34):8190-8194(OSA: SCI/EI).
  [10]Che K*, Lei M, Gu G, Cai Z, Huang Y, 2013. Optical coupling and emission of metal-insulator confined circular resonators,” Opt. Express, 21(4):4979-4985(OSA: SCI/EI).
  [11]Che K*, Huang Y, Chen L, Cai Z, Xu H 2011. Metallically confined microdisks with in-plane guided emissions, Opt. Express, 19(19):18116-18121(OSA: SCI/EI).
  [12]Che K*, Huang Y, Xu H, Cai Z, 2011. Port-output of metallo-dielectric confined circular microlasers, Opt. Lett. vol. 36(8):1374-1376(OSA: SCI/EI).
  [13]Che K, Yao Q, Huang Y, Cai Z, Yang Y, and Du Y, 2011. Multiple-Port InP/InGaAsP Square-Resonator Microlasers, IEEE J. Sel. Topics Quantum Electron., 17(6):1656-1661(IEEE: SCI/EI).
  [14]Che K, Lin J, Huang Y, Yang Y, Xiao J, Du Y, 2010. InGaAsP/InP square microlasers with a vertex-output port, IEEE Photon. Technol. Lett., 22(18):1370-3712(IEEE: SCI/EI).
  [15]Che K, Huang Y, 2010. Mode characteristics of metallically coated square microcavity connected with an output waveguide, J. Appl. Phys., 107:113103(AIP: SCI/EI).
  [16]Che K, Lin J, Huang Y, Yang Y, Xiao J, Du Y, 2010. Two-Ports InGaAsP/InP Square Resonator Microlasers Electron. Lett., 46(8):585-586(IET: SCI/EI).
  [17]Che K, Yang Y, Huang Y, Multimode resonances of metallic-confined square-resonator microlasers, 2010. Appl. Phys. Lett.96:051104-051106(AIP: SCI/EI).
  [18]Che K, Yang Y, Huang Y, Mode characteristics for square resonators with a metal confinement layer, 2010. IEEE J. Quantum Electron.46(3):414-420(IEEE: SCI/EI).
  [19]Huang Y, Che K, Yang Y, Wang S, Du Y and Fan Z, 2008. Directional emission InP/GaInAsP square-resonator microlasers Opt. Lett. 33(9):2170-2172(OSA: SCI/EI).


以上是聚英厦大考研网为考生整理的"厦门大学电子科学与技术学院导师介绍:车凯军"的相关考研信息,希望对大家考研备考有所帮助! 备考过程中如有疑问,也可以添加老师微信H17720740258进行咨询。

分享:
学习QQ群
MORE
浏览过该网页的还看了 MORE
聚创考研网校微信 聚创考研网校微信