进调剂群,获调剂指导
招生人数:2
招生简介:
朱磊 副教授 硕士生导师
E-mail:zhuzhubutterfly@126.com
邮 编:161006
通信地址:齐齐哈尔市建华区文化大街42号
招生信息
电磁场与微波技术
基本信息
朱磊,女,1982年生人,2015年在哈尔滨工业大学获得工学博士学位,师从吴群教授。2014年至今,任齐齐哈尔大学通信与电子工程学院副教授。兼任通信学会会员,多个国际权威学术期刊审稿专家。多年来在微波电磁学、微波光子学领域,以无线通信中的关键技术为研究背景,在超常媒质电磁激发机理、构造方法以及超常媒质在无线射频通信技术中的应用等前沿方向上取得了一系列创新性研究成果。开创了以超常媒质为基础的低损耗微波射频器件设计新方向,攻克了超常媒质的损耗和带宽等关键问题,极大促进了超常媒质无线射频技术领域的发展。目前在《Optics Express》、《IEEE Transactions on Magnetics》、《Journal of Physics D-Applied Physics》、《IEEE Transactions on Terahertz Science and Technology》以及《Applied Optics》等国内外知名学术刊物上发表论文40余篇,其中SCI 检索论文30余篇,被引总计100余次。发表论文被Scientific Reports、Optics express、IEEE Trans. on Microwave Theory and Techniques、Optical Materials Express、Journal of Applied Physics和IEEE Sensors Journal等多个国际著名SCI期刊引用并得到卓越的评价。
具体情况如下:
1. 教学工作:主讲《电磁场与电磁波》、《微波技术》、《天线技术》等课程教学。
2. 科研项目:完成各类基础理论研究和应用技术研究项目10余项,其中包括国家自然科学基金项目、国家博士后基金项目、黑龙江省自然科学基金、航天支撑基金项目、空天技术联合创新基金项目等。所获得的主要科研项目如下:
1) 微波全介质超常媒质中多介质单元耦合诱导的透明效应机理与应用研究,国家青年科学基金,2016.1-2018.12,项目经费:37.2万。
2) 基于近场耦合的低损耗超介质激发机理及微波器件应用研究,黑龙江省青年科学基金,2015.7-2018.7 ,项目经费:7.5万元。
3) 基于电磁感应透明效应的左手介质天线技术研究,中电集团项目, 2011.1-2012.12,项目经费:80万。
4) 基于零折射超常媒质的高增益多波束反射面天线研究,CAST创新基金, 2013.01-2014.12,项目经费:5万。
5) 基于超常介质的小型化、高增益微带天线研究,空天联合创新基金, 2012.01-2013.12,项目经费:30万。
6) 嵌入式可重构路由技术在数字化油田远程监测中的应用,黑龙江省教育厅,2013.1-2015.12,0.5万。
7) 微波检测技术在油水双界面液位测量中的应用,黑龙江省教育厅,2010.01-2012.03,0.8万。
3. 专著和教材:
1) 2011年,现代通信综合实验教程,哈尔滨工业大学出版社。
2) 2009年,ADS2008射频电路设计与仿真实例,电子工业出版社。
4. 部分代表性论文:在国际权威期刊上发表SCI论文30余篇,被引次数100余次,多篇论文发表在本学科国际顶级学术刊物。部分代表性论文列表如下:
1) Lei Zhu, Liang Dong, Jing Guo, Fan-Yi Meng, Xun Jun He, Chun Hui Zhao and Qun Wu, A low-loss electromagnetically induced transparency (EIT) metamaterial based on coupling between electric and toroidal dipoles[J]. RSC Adv., 2017, 7, 55897-55904. (JCR 2区,IF=3.108)
2) Lei Zhu, Liang Dong, Jing Guo, Fan-Yi Meng, and Qun Wu. Tunable electromagnetically induced transparency in hybrid graphene/all-dielectric metamaterial [J]. Applied Physics A, 2017:123(3), 192. (JCR 3区,IF=1.455)
3) Lei Zhu, Jing Guo, Liang Dong, Fan-Yi Meng, and Qun Wu,Coherent perfect absorption in an electromagnetically induced transparency-like (EIT-like) system[J],Journal of Optics, 2016,18:095104. (JCR 2区,IF=2.059)
4) Lei Zhu, and Liang Dong. Electromagnetically induced transparency with wide band in all-dielectric microstructure based on Mie resonances[J]. Journal of Optics, 2014, 16: 125105. (JCR 2区,IF=2.059)
5) Lei Zhu, Fan-Yi Meng, Liang Dong, Qun Wu, Bang-Jun Che, Ju Gao, Jia-Hui Fu, Kuang Zhang, and Guo-Hui Yang. Magnetic metamaterial analog of electromagnetically induced transparency and absorption[J]. Journal of Applied Physics, 117, 17D146 (2015). (JCR 2区,IF=2.183)
6) Lei Zhu, Fan-Yi Meng, Qun Wu, Liang Dong, Wan Chen, Jia-Hui Fu. Passive polarization agile antenna based on electromagnetically induced transparency-like (EIT-like) effect[J]. Journal of Physics D: Applied Physics, 2014, 47(41): 415006. (JCR 1区,IF=2.724)
7) Lei Zhu, Jia Hui Fu, Fan Yi Meng, Xu Min Ding, Liang Dong, Qu Wu*. Detuned Magnetic Dipoles Induced Transparency in Microstrip Line for Sensing[J]. IEEE Transactions on Magnetics, 2014, 50(1):4000604. (JCR 2区,IF=1.422)
8) Lei Zhu, Fan Yi Meng, Liang Dong, Jia Hui Fu, Fang Zhang, Qun Wu*. Polarization manipulation based on electromagnetically induced transparency-like (EIT-like) effect[J]. Optics Express, 2013, 21(26): 32099-32110. (JCR 1区,IF=3.546)
9) Lei Zhu, Fan Yi Meng*, Liang Dong, Jia Hui Fu, Xu Min Ding, Qun Wu. Tunable Transparency Effect in a Symmetry Metamaterial Based on Subradiant Magnetic Resonance[J]. IEEE Transactions on Magnetics, 2014, 50(1): 2101204. (JCR 2区,IF=1.422)
10) Lei Zhu*, Liang Dong, Fan Yi Meng, Jia Hui Fu, and Qun Wu, “Influence of symmetry breaking in a planar metamaterial on transparency effect and sensing application,” Applied optics, 2012, 51(32):7794-7799. (JCR 2区,IF=1.784)
11) Lei Zhu, Fan Yi Meng*, Liang Dong, Jia Hui Fu, Qun Wu*. Low-loss magnetic metamaterial at THz frequencies by suppressing radiation losses[J]. IEEE Transactions on Terahertz Science and Technology, 2013, 3(6): 805-811. (JCR 1区,IF=4.342)
12) Lei Zhu, Fan Yi Meng, Fang Zhang, Jia Hui Fu, Qun Wu*, Xu Min Ding, Le Wei Li. An ultra-low loss split ring resonator by suppressing the electric dipole moment approach[J]. Progress In Electromagnetics Research, 2013, 137: 239-254. (JCR 2区,IF=1.229)
13) Lei Zhu, Fan Yi Meng, Jia Hui Fu, Qun Wu*, Jun Hua. Multi-band slow light metamaterial[J]. Optics Express, 2012, 20(4): 4494-4502. (JCR 1区,IF=3.
14) Lei Zhu, Fan Yi Meng*, Jia Hui Fu, Qun Wu*. An electromagnetically induced transparency metamaterial with polarization insensitivity based on multi-quasi-dark modes[J]. Journal of Physics D: Applied Physics, 2012, 45(44): 445105. (JCR 1区,IF=2.721)
15) Lei Zhu, Fan Yi Meng, Jia Hui Fu, Qun Wu*, Jun Hua. An approach to configure low-loss and full transmission metamaterial based on electromagnetically induced transparency[J]. IEEE Transactions on Magnetics, 2012, 48(11):4285-4288. (JCR 2区,IF=1.422)
16) Lei Zhu*, Liang Dong, Fan Yi Meng, Qun Wu. Wide-angle and polarization-independent electromagnetically induced transparency-like effect based on pentacyclic structure [J]. Journal of Optics, 2014, 16(1):015103. (JCR 2区,IF=2.059)
17) Liang Dong and Lei Zhu*, “Tunneling effects induced transparent polarization manipulation,” Journal of Physics D: Applied Physics, 2014, 47:155101. (JCR 1区,IF=2.721)
18) Jia Hui Fu, Wan Chen*, Chang Fei Zhou, Lei Zhu, Qun Wu. Circular polarized electronically-controlled antenna based on CRLH-TL[J]. Applied Physics A, 2013, 11:1-6. (JCR 2区,IF=1.694)
19) Jiahui Fu, Wan Chen, Kuang Zhang, Bo Lv, Lei Zhu, Qun Wu, Electromagnetic force based on trapped mode of asymmetrical split ring[J]. Applied Physics A, 2014. (JCR 2区,在线出版,IF=1.694)
20) Xu Min Ding*, Kuang Zhang, Hao Yu, Lei Zhu, Chen Nan Feng, Qun Wu. A Novel Magnetic Coupling UHF Near Field RFID Reader Antenna Based on Multilayer-Printed-Dipoles [J]. IEEE Transactions on Magnetics, 2014, 50(1): 4001804. (JCR 3区,IF=1.422)
5获奖与荣誉称号
2017年获得哈尔滨工业大学优秀博士学位论文奖(全校近1000名博士毕业生中16人获奖);
2013年 指导学生参加省物联网大赛获省三等奖;
2012年 指导学生参加黑龙江省挑战杯获省二等奖;
2005年 指导学生参加黑龙江省挑战杯获省三等奖。
6优先接收学硕调剂,优先接收通信专业、电子专业、电信专业、电子科学技术专业、物理专业等信息电子类相关专业调剂
可推荐211、985院校、海外知名高校读博