庞霖，男，理学博士，教授，博士生导师。

Email: panglin@scu.edu.cn

教育背景

1995-1998，四川大学，光学，博士

1987-1990，兰州大学，理论物理，硕士

1983-1987，兰州大学，物理学，学士

工作经历

1990-1995，兰州交通大学，基础学部，讲师

1999-2000，清华大学，精密仪器与机械学系，博士后

2001-2012，美国加州大学圣迭戈分校，电子与计算机工程，副研究员

2012-至今，四川大学，物理学院，教授

人才培养

主讲研究生课程：《信息光子学》和《现代光学研讨》

专业领域：纳米光子学、集成光子学、光学成像

研究领域

1、拉曼散射和拉曼增强效应的机制与应用

2、基于强散射介质的光场调控和反射光学成像

3、基于光场放大的特异生化传感与检测

代表性科研项目与成果

一、科研项目

1、超高增益表面增强拉曼光谱动物源性食品中农兽药残留高通量筛查技术研究，四川省重点研发项目。

2、新型外场下纳米功能材料的新特征及在医学诊断和治疗中的应用/物理+医学（交叉学科），四川大学理工学科内涵发展项目。

3、红外散射成像系统光调制器件研制合同，四川大学华西医院横向课题。

4、拉曼散射复合增强的非线性耦合机制及应用研究，国家自然科学基金面上项目。

5、多极子耦合纳米等离子体场增强新方法及单分子拉曼检测研究，国家自然科学基金面上项目。

二、论著

1. L. Pang and Y. Fainman, Plasmonics, McGraw-Hill YEARBOOK OF SCIENCE & TECHNOLOGY, 2014

2. L. Pang, H. Chen, L. M. Freeman and Y. Fainman, Optofluidics, Handbook of Photonics, 2013

3. B. Slutsky, L. Pang, J. Ptasinski, Optofluidic Plasmonic devices, The McGraw-Hill Companies, Inc. 2010

三、代表性学术论文（通讯作者）

1. Unusual response of the chemical contribution to the plasmonic excited near field in enhanced Raman spectra of molecules on metal substrates, Physical Review A, 111, 043505 (2025).

2. A homogeneous plasmon-enhanced Raman biosensor integrated with LASSO and deep learning approach to advance label-free and rapid diagnosis of urolithiasis, Applied Physics Letters, 126, 093702 (2025).

3. Dominated binary phase distribution governed by information theory in noisy scattering systems, Applied Optics, 63(27): 7129-7134 (2024) [Editors’Pick].

4. Enhanced genetic algorithm through scattering media by searching-strategy optimization, Optics and Lasers in Engineering, 181, 108415 (2024).

5. Plasmon-enhanced Raman spectroscopy to estimate near-electric-field enhancement, Physical Review A, 109, 053516 (2024).

6. Noise resistance characteristics of wavefront shaping techniques, Optics & Laser Technology, 175, 110740 (2024).

7. Progressive acceleration in the genetic algorithm by intragenerational mutation, Applied Optics, 63(1): 10-16 (2023).

8. Featuring few essential Raman spectroscopic signatures between heterogeneous cells, Journal of Biophotonics, 15:e202100338 (2022).

9. Speedy light focusing through scattering media by a cooperatively FPGA-parameterized genetic algorithm, Optics Express, 30(20): 36414-36428 (2022).

10. Correlation and Difference Between Raman Spectral Characteristic and Feature Evaluation for Leukocytes and Tumor Cells, Applied Spectroscopy, 75(12): 1516-1525 (2021).

11. Double-frequency metallic grating over large areas with ultrahigh Raman enhancement, Applied Physics Express, 14, 032002 (2021).

12. Characteristic of Five Subpopulation Leukocytes in Single-Cell Levels Based on Partial Principal Component Analysis Coupled with Raman Spectroscopy, Applied Spectroscopy, 74(12): 1463-1472 (2020).

13. Memory effect evaluation based on transmission matrix calculation, Chinese Physics B, 28(7), 074207 (2019).

14. Quantification and coupling of the electromagnetic and chemical contributions in surface-enhanced Raman scattering, Beilstein Journal of Nanotechnology, 10, 549-556 (2019).

15. Binary wavefront optimization using particle swarm algorithm, Laser Physics, 28(7), 076204 (2018).

16. Focusing light through random scattering media by simulated annealing algorithm, Journal of Applied Physics, 124, 083104 (2018).

招生信息

一、 研究生招生专业方向：光学

二、 招生要求：

1. 申请硕士生或直博生，本科需在物理类、光学工程、电子等相关专业就读。

2. 申请普博生，硕士生需有物理光学、微纳加工、光学聚焦与成像等相关科研项目经验。

三、本科生科研指导：课题组每年接收物理学院或本校外学院相关专业在读本科生5名左右参与课题组在研科研项目。