陈蕾
硕士生导师
讲师(高校)
性别:女
学位:博士学位
学科:电子科学与技术*
在职信息:在职
所在单位:电子工程学院
学历:研究生毕业
所属院系:电子工程学院
办公地点:科研楼(海淀校区)
电子邮箱:chenlei@bupt.edu.cn
其他联系方式
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论文成果
- .R. Ma, Y. Liu, Z. Yu, L. Chen, D. Wu, and L. Yu, "Bi-Directional Faraday Rotation Selective Enhancement on Embedded Nano-Gratings," IEEE Photonics Technology Letters 29(19), 1615–1618 (2017).
- .D. Wu, Y. Liu, Z. Yu, L. Chen, R. Ma, Y. Li, R. Li, and H. Ye, "Wide-angle, polarization-insensitive and broadband absorber based on eight-fold symmetric SRRs metamaterial," Optics Communications 380, 221–226 (2016).
- .R. Ma, Y. Liu, Z. Yu, L. Chen, D. Wu, and L. Yu, "Polarization insensitive transmission enhanced by staggered metal disk array," Optical Materials 73, 563–569 (2017).
- .D. Wu, Y. Liu, R. Li, L. Chen, R. Ma, C. Liu, and H. Ye, "Infrared perfect ultra-narrow band absorber as plasmonic sensor," Nanoscale Research Letters 11(483), (2016).
- .C. Liu, D. Zhang, Y. Liu, D. Wu, L. Chen, R. Ma, Z. Yu, L. Yu, and H. Ye, "Numerical study of an efficient solar absorber consisting of metal nanoparticles," Nanoscale Research Letters 12(1), 601 (2017).
- .D. Wu, Y. Liu, L. Yu, Z. Yu, L. Chen, R. Li, R. Ma, C. Liu, J. Zhang, and H. Ye, "Plasmonic metamaterial for electromagnetically induced transparency analogue and ultra-high figure of merit sensor," Scientific Reports 7(1), 45210 (2017).
- .R. Ma, Y. Liu, Z. Yu, Y. Zhang, L. Chen, D. Wu, Y. Li, and H. Ye, "The sensing characteristics of periodic staggered surface plasmon gratings," Optics Communications 381, 391–395 (2016).
- .D. Wu, R. Li, Y. Liu, Z. Yu, L. Yu, L. Chen, C. Liu, R. Ma, and H. Ye, "Ultra-narrow band perfect absorber and its application as plasmonic sensor in the visible region," Nanoscale Research Letters 12(427), (2017).
- .D. Wu, C. Liu, Y. Liu, L. Yu, Z. Yu, L. Chen, R. Ma, and H. Ye, "Numerical study of an ultra-broadband near-perfect solar absorber in the visible and near-infrared region," Optics Letters 42(3), 450–453 (2017).
- .D. Wu, C. Liu, Y. Liu, Z. Xu, Z. Yu, L. Yu, L. Chen, R. Ma, J. Zhang, and H. Ye, "Numerical study of a wide-angle polarization-independent ultra-broadband efficient selective metamaterial absorber for near-ideal solar thermal energy conversion," RSC advances 8(38), 21054–21064 (2018).