李宇波,浙江大學信息與電子工程學院副教授,研究方向為物理光學、光調製器件、信號檢測。
基本介紹
- 中文名:李宇波
- 學位/學歷:博士
- 專業方向:為物理光學、光調製器件、信號檢測
- 職稱:副教授
人物簡介,教學課程,研究成果,發表論文,專利成果,
人物簡介
1995.9-1999.7 Precision Automation Instrument Bachelor Degree
1999.9-2002.6 Measurement technology and instruments Master Degree
2003.9-2007.3 Microelectronics and Solid State Electronics PhD
2007.4-2009.6 Information and Communication Engineering Institutes Postdoctor
2009.6-2013.12 Microelectronic and optoelectronic institute Lecture
2014.1- now Microelectronic and optoelectronic institute AssociatedProfessor
教學課程
自2007年以來,共開設本科教學基礎類課程三門,分別是《數字電路》、《數字系統設計I》、《固體物理與半導體物理》。開課以來,幽默的教學方式、循序漸進的教學理念、獨樹一幟的教學方法,頗受廣大學生喜愛。多年來,課程評價及課堂效果都非常理想。
每年指導5名本科生進行畢業設計,從2007年開始至今,已指導本科畢業設計38人,其中4人獲得“浙江大學本科生百篇優秀論文獎”的榮譽。
研究成果
1. Nowadays, Single nanoparticle sizing and counting are essential for a broad range of applications. According to the practically sizing and counting difficulties, we proposed a new on-chip method and model based on a microring resonator device which solved the previous problems. Our work presents a new method for rapid and accurate counting and sizing of nanoparticles ranging from a few hundred nanometers to sub-10 nm. In the mean time, our method also affords to count the quantity of single nanoparticle. Based on the theoretical method and theory, we cooperate withUniv.ofMichiganresearch group, and initialed the measurement setup and sensor device. Some results have been published on Optics Express in 2013.
Attached figures are about the device structure and some results.
2. Propose an effective and innovative analysis model of photonic devices such as ring resonators, AWG, etc., based on Optical Low Coherence Interferometry (OLCI). Based on the universality of model, we construct the complete experimental platform of OLCI with significant improvement on accuracy of OLCI by initiatively incorporating polarization control and phase locking into the interference structure. The merits of the proposed analysis model for photonics devices have been proved via experiments that it could extract physical parameters of complicated integrated optics device with good accuracy, overcoming some limitations of previous OLCI analysis methods. This breakthrough has paved the way for further study of using low coherence interferometry to analyze more categories of objects. The results have been published on Journal of Lightwave Technology in 2012.
the Figure of System Structure
some Mearsurement Results
3. Cubic boron nitride (cBN) is currently attracting considerableinterest for applications in the fields of high-temperature and highpowerelectronic devices because of its excellent chemical stability,high thermal conductivity, wide bandgap with both n- and p-typedopability and a large breakdown electric field. Applying the first pricile method and Micro-fabrication we obtain some devices which could detect deep UV light. this could be used for solving the problem of 'Sun blind'. we granted by NSFC and published 3 SCI papers by now.
發表論文
Yubo Li, Xudong Fan. Microring resonators with flow-through nanopores for nanoparticle counting and sizing. Optics Express, 21, 229–237, 2013 (SCI)
Li Yubo., Chen W., Chen D., Zeng Y., Lu H., Yang J. A General Characterizing Method for RingResonators Based on Low Coherence Measurement. J. Lightw. Technol., 30(6): 846–852, 2012. (SCI)
Li Yubo, Zou Fengyuan, Jiang Huaxing, Zhou Qiang, Jiang Xiaoqing, Yang Jianyi. Mueller-matrix microscopic system based on electro-optics modulation for cellular measurement. Optical Engineering, 2011, 50(10): 103202(SCI)
Qi Biao, Yu Ping, Li Yubo, Jiang Xiaoqing, Yang Mei, Yang Jianyi. Analysis of Electrooptic Modulator With 1-D Slotted Photonic Crystal Nanobeam Cavity. IEEE Photonics Technology Letters, 2011, 23(14):992-994(SCI)
Yubo Li, Weijian Chen, Di Chen, Minghua Wang, Jianyi Yang. Characterizing Method for Ring Resonators Based on Low Coherence Measurement, Journal of Lightwave Technology, 2012, 30(6):846-852(SCI)
專利成果
獲批國家發明專利
4、電光型偏振譜測量顯微鏡 浙江大學 ZL200810163435.2 第一發明人
3、偏振雷射針灸針頭 浙江大學 ZL200710160366.5 第一發明人
2、共面電極型壓電陶瓷材料光圓偏振調製器浙江大學 ZL200510049960.8 第一發明人
1、光圓偏振調製器 浙江大學 ZL200410053498.4 第一發明人