个人简介
招生方向:电子科学与技术(0809);电子与通信工程(085208):天线理论与技术,电磁波吸波体。
2014年毕业于电子科技大学物理电子学院,获得无线电物理专业博士学位。期间于2013年在美国休斯顿大学进行学术访问。2014年7月至今在重庆大学通信工程学院从事科研教学工作。作为课题负责人,主持国家自然科学基金,中央高校基本科研项目,重庆大学科研启动项目。作为主要研究人员,先后参与国家自然科学基金、国家863计划项目、国防预研基金项目等多个项目的研究。
近年来,一直从事天线理论与技术、超材料在微波领域的研究工作,取得较好的研究成果。目前在国内外学术期刊以及学术会议上发表学术论文30余篇,其中以第一作者身份先后在Journal of Applied Physics, AIP Advance、Applied Physics A、Radioengineering等国内外主流学术刊物发表SCI学术论文近20余篇,申请国家发明及实用新型专利9项。
主持及主研科研项目及人才计划项目情况:
1. 重庆市科技计划项目基础科学与前沿技术研究专项一般项目,用石墨烯实现智能可控吸波体研究(cstc2016jcyjA0377)”,2016.8-2019.7,主持;
2. 国家自然基金青年项目(No.61501067),“基于超材料-石墨烯实现频段可调的高性能吸波体研究”,2015/1-2017/12,主持;
3. 教育部重点实验室基金“超材料-石墨烯吸波体其机理研究(MLLAB2016001)”,2017.1-2018.12,主持;
4. 中央高校科研业务费(No.ZYGX2012YB019),“电磁超材料理论及其在天线与隐身中的应用”,2012/05-2014/04,主持;
5. 中央高校科研业务费,“频段可调的高性能石墨烯吸波体其关键问题研究(No.106112015CDJXY160007)”,2015/1-2016/12,主持;
6. 重庆大学科研启动项目,2014/9-2017/8,主持;
7. 国家自然科学基金面上项目(Grant no.6030100),“新型传输线方程及其在三维微波集成电路建模中的应用”,主研;
8. 国家自然科学基金面上项目(Grant no.61172115),“基于时间反演技术隐身目标的新型探测方法研究” ,主研;
9. 航空科学基金,(Grantno.20100180003),“基于时间反演的反隐身探测新型方法及相关技术研究”, 主研。
专利
[1] 洪劲松,熊汉,罗超鸣,钟垒,王秉中,一种超薄宽带吸波超材料,发明专利,专利号:ZL20131 0143557.6,四川.
[2] 唐明春,熊汉,一种基于超材料单元的小型化双频带单极子天线,发明专利,专利号:ZL201410398319.4,2016;
[3] 唐明春,赵昺玥,向万芝,熊汉,曾浩,肖绍球,一种基于L型寄生条带的紧凑型超宽带天线,发明专利,申请号:201410377391.9, 2014,重庆.
[4] 唐明春,郭李,胡栋,熊汉,陈世勇,于彦涛,一种紧凑型宽带八角形槽天线,实用新型专利,专利号:ZL201420380475.3,发文序号:2014101500079260,
2014,重庆.
[5] 唐明春, 郭李, 胡栋, 熊汉, 陈世勇, 于彦涛, 一种紧凑型宽带八角形槽圆盘槽天线, 发明专利,专利号:ZL201420380475.3,发文序号:2014101500079260, 2014,重庆.
[6] 唐明春,王浩,熊汉,陈世勇,于彦涛,曾浩,张新征,李明玉,胡盛东,王韬,曹海林,一种基于变容二极管的双陷波可调的超宽带天线,发明专利,申请号:201510223889.4, 2015.05,重庆.
[7] 欧翔,仲元红,李东,熊汉,桂小刚,林焕,方志平,一种研究经皮给药溶剂渗透的方法,发明专利,专利号:201610242209.8, 2016.05,重庆.
[8] 欧翔,仲元红,李东,熊汉,桂小刚,林焕,方志平,一种定量分析人体皮肤角质层水分含量变化的方法,发明专利,专利号:201610240797.1, 2016.05,重庆.
[9] 欧翔,仲元红,李东,熊汉,桂小刚,林焕,方志平,一种定量分析人体皮肤纹理老化的方法,发明专利,专利号:201610240322.2,2016.05,重庆.
近期论文
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主要期刊及会议论文:
[1] Han xiong, Ming-Chun Tang, Mei Li, Dong Li and Yan-Nan Jiang, “Equivalent Circuit Method Analysis of Graphene-Metamaterial (GM) Absorber”,
[2] Han Xiong, Dong Li, Cheng Yang, Xiu-Ming Li and Xiang Ou, “Miniaturization of Monopole Antenna by Metamaterial Loading Technique”,
[3] Han Xiong, Yan-Tao Yu, Ming-Chun Tang, Shi-Yong Chen, Dan-Ping Liu, Xiang Ou and Hao Zeng, “Varied absorption peaks of dual-band metamaterial absorber analysis by using reflection theory”,
[4] Han Xiong, Lin-Lin Zhong, Chao-Ming Luo, Jing-Song Hong, “Dual-band polarization-/angle-insensitive metamaterial absorber,”
[5] Han Xiong, Ming-Chun Tang, Jing-Song Hong, “Analysis of single-layer metamaterial absorber with reflection theory”,
[6] Han Xiong, Jin-Song Hong, Chao-Ming Luo, Lin-Lin Zhong, "An ultrathin and broadband metamaterial absorber using multi-layer structures,"
[7] Han Xiong, Jin-Song Hong, Da-Lin Jin, "Wideband dipole antenna with inter-digital capacitor,"
[8] Han Xiong, Jing-Song Hong, A wideband endfire directional microstrip antenna with metamaterials,
[9] Han Xiong, Jin-Song Hong, Qing-Yi Zhu, Da-Lin Jin, "Novel monolayer windmill structure left-handed metamaterial,"
[10] Han Xiong, Jing-Song Hong, Da-Lin Jin, "Dual-band metamaterial with a windmill-like structure,"
[11] Han Xiong, Jing-Song Hong, Yue-Hong Peng, "Impedance Bandwidth and Gain Improvement for Microstrip Antenna Using Metamaterials,"
[12] Han Xiong, Jing-Song Hong, Ming-Tao Tan, Bing Li, "Compact microstrip antenna with metamaterial for wideband applications,"
[13] Han Xiong, Jing-Song Hong, Da-Lin Jin, Zhi-Min Zhang, "A novel structure for a broadband left-handed metamaterial,"
[14] Han Xiong, Jin-Song Hong, Qing-Yi Zhu, Da-Lin Jin, Compact ultra-wideband microstrip antenna with metamaterials,"
[15] Xiong Han, He Wei, Penp Yue-hong, et al., “Optimal Design Dielectric Layer of Lunberg-Lens Antenna”, 5th Asia-Pacific Conference on Environmental Electromagnetics, pp. 172-175, 2009. 【SCI】
[16] Dong Li, Xiaogang Gui, Hongqing Liu, Jia Su, and Han Xiong, “An ISAR Imaging Algorithm for Maneuvering Targets with Low SNR Based on Parameter Estimation of Multicomponent Quadratic FM Signals and Nonuniform FFT”,
[17] Ming-Chun Tang, Tian-Wei Deng, Han Xiong, Shao-Wei Qing, Hao Zeng, "A miniaturized omni-directional negative permittivity zeroth-Order resonance antenna,"
[18] Ming-Chun Tang, Ting Shi, Han Xiong, and Shao-Wei Qing, “Low-profile asymmetrical-CSRR-loaded stacked microstrip patch antenna,”
[19] Chao-Ming Luo, Jing-song Hong, Han Xiong, "A tri-band-notched UWB antenna with low mutual coupling between the band-notched structures,
[20] Da-Lin Jin, Jing-Song Hong, Han Xiong, "A Novel Single-Sided Wideband Metamaterial,"
[21] Da-Lin Jin, Jing-Song Hong, Han Xiong, "Dual Wideband Antenna for WLAN/WiMAX and Satellite System Applications Based on a Metamaterial Transmission
Line," Chinese Physics Letters, 2012, 29(10), 104101, 【SCI : 022ME】 被引2次
[22] Guo, Li, Tang Ming-Chun, Li Mei, Han Xiong, et. al, “Bandwidth enhancement of dual-layer patch antenna using low mutual-coupling near-field resonant parasiticl elements”, , 2017, 59(1): 180-186.
[23] 彭跃红,和伟,熊汉, 梁小冲,刘洪建,王迎新,“六态协议在路径攻击下的安全性研究,”,2010, (04), 47-50.
[24] 熊汉,罗超鸣,洪劲松,钟琳琳,贾啸,“超材料吸波体的研究进展,” ,2013.5.21-2013. 5.24.
[25] Han Xiong, De Li, Jin-Song Hong, "Covertness of Wireless Sensor Network Based on TimeReversal Technique," , 2011.11.29-12.1.
[26] 罗超鸣,熊汉,洪劲松,贾啸,“一种小型化三阻带UWB天线,”,2013.5.21-2013.5.24.
[27] 贾啸,钟垒,洪劲松,熊汉,罗超明,“基于复杂网络中渗流理论的研究进展,” ,”2013.5. 21-2013.5.24.
[28] 石婷,唐明春,周博雅,熊汉,“一种小型化交指六边形 带通滤波器设计,” ,2015.5.29-6.2.
[29] Han Xiong, Ming-Chun Tang, Cheng Yang, et.al., “Single-Cell Metamaterial Loading Technique for Miniaturization of Monopole Antenna”, , 2015.12.6-2015.12.9.
[30] Li Guo, Ming-Chun Tang, Han Xiong, “A Circularly Polarized, Electrically Small Antenna Augmented with Non-Foster Elements”, 2015.12.6-2015.12.9.
[31] Ming-Chun Tang, Li Guo, Han Xiong, Qingsheng Zeng, “A Novel Compact Planar UWB Antenna with L-Shaped Parasitic Strips”,,2015. 8:11-14. 【Sci & Ei】
学术兼职
任Journal of Applied Physics,Carbon,Applied Computational Electromagnetic Society (ACES),Radioengineering,Materials ResearchInnovations等多个刊物的审稿人。