教师队伍
光电信息技术与颜色工程研究所(按姓名拼音排序)
熊江浩
性别:男
职称:预聘助理教授/特别副研究员
学历:博士研究生
所在学科:光学工程
研究方向:虚拟/增强现实光学显示,全息液晶光学,三维/光场显示
教师介绍
一、个人简介
熊江浩,男,维多利亚老品牌vic3308特别副研究员,博士期间于美国中佛罗里达大学跟随著名液晶学者ST Wu(吴诗聪)教授进行研究,参与了新型反射式全息液晶器件的早期发现、物理建模、光学仿真等研究,并将其应用到虚拟/增强现实光学显示,解决了一系列工程问题。以第一作者在Light: Science & Applications (2篇),eLight,Optics Letters, Optics Express等期刊上发表论文十余篇,以共同作者在PhotoniX,iScience,Advanced Optical Materials上发表论文十余篇。目前谷歌学术引用1000余次,H因子19。多次在SID Display Week,SPIE AR/VR/MR等光学显示知名国际会议上做报告,并且两次获得SID杰出论文奖,其中一次被评为JSID年度最佳论文。此外,还获得了国际液晶协会(ILCS)和Meta Reality Labs共同颁发的液晶研究杰出奖的最高钻石奖。
二、教育经历
2013.08-2017.06,中国科学技术大学,物理学院,理学学士B.S
2013.08-2017.06,中国科学技术大学,计算机科学与技术学院,工学学士B.E(双学位)
2017.08-2022.05,美国中佛罗里达大学,光学院,博士Ph.D
三、工作经历
2022.07至今,北京理工大学,维多利亚老品牌vic3308,教师
四、研究领域
1.全息液晶光学;
2.虚拟/增强现实光学显示;
3.计算全息;
4.3D/光场显示
五、学术兼职
Light: Science & Applications,Optics Express, Optics Letters等期刊审稿人。
六、代表性学术成果
01.J. Xiong, Q. Yang, Y. Li, and S. T. Wu, “Holo-imprinting polarization optics with a reflective liquid crystal hologram template,” Light: Science and Applications 11, 54 (2022).
02.J. Xiong, E. L. Hsiang, Z. He, T. Zhan and S. T. Wu, “Augmented reality and virtual reality displays: emerging technologies and future perspectives”, Light: Science and Applications 10, 216 (2021)
03.J. Xiong and S. T. Wu, “Planar liquid crystal polarization optics for augmented reality and virtual reality: From fundamentals to applications,” eLight 1, 3 (2021)
04.J. Xiong, Y. Li, K. Li, and S. T. Wu, “Aberration-free pupil steerable Maxwellian display for augmented reality with cholesteric liquid crystal holographic lenses,” Optics Letters 46(7), 1760-1763 (2021).
05.J. Xiong, Y. Li, K. Li, and S.T. Wu, “Aberration-free pupil steering Maxwellian display with wide-view broadband polarization converters,” Journal of the Society for Information Display 29, 1-7 (2021).
06.J. Xiong, K. Yin, K. Li, and S.T. Wu, “Holographic optical elements for augmented reality: principles, present status, and future perspectives,” Advanced Photonics Research 2, 2000049 (2021).
07.J. Xiong and S.T. Wu, “Rigorous coupled-wave analysis of liquid crystal polarization gratings,” Optics Express 28(24), 35960-35971 (2020).
08.J. Xiong, G. Tan, T. Zhan, and S. T. Wu, “Breaking the field-of-view limit in augmented reality with a scanning waveguide display,” OSA Continuum 3(10), 2730-2740 (2020).
09.C. Yoo#, J. Xiong#, S. Moon, D. Yoo, C-K. Lee, S. T. Wu, and B. Lee, “Foveated display system based on a doublet geometric phase lens,” Optics Express 28(16), 23690-23702 (2020).
10.J. Xiong, G. Tan, T. Zhan, and S. T. Wu, “Wide-view augmented reality display with diffractive cholesteric liquid crystal lens array,” Journal of the Society for Information Display 28, 450-456 (2020).
11.J. Xiong. T. Zhan, and S. T. Wu, “A versatile method for fabricating Pancharatnam-Berry micro-optical elements,” Optics Express 27(20), 27831-27840(2019).
12.J. Xiong. R. Chen, and S. T. Wu, “Device simulation of liquid crystal polarization gratings,” Optics Express 27(13), 18102-18112 (2019).
13.T. Zhan#, J. Xiong#, G. Tan, Y. H. Lee, J.Yang, S. Liu, and S. T. Wu, “Improving near-eye display resolution by polarization multiplexing,” Optics Express 27(11), 15327-15334 (2019).
14.J. Xiong, M. Zhao, X. Han,Z. Cao, X. Wei, Y. Chen, C. Duan and M. Yin, “Real-time micro-scale temperature imaging at low cost based on fluorescent intensity ratio”, Scientific Reports 7, 41311(2017).
更新时间:2022年08月