特聘教授、博士生导师

龚文林，男，苏州大学光电科学与工程学院特聘教授，博士生导师。2011年6月博士毕业于中国科学院上海光学精密机械研究所，曾获中国科学院院长优秀奖。毕业后留所工作，一直从事关联成像应用基础研究。2013年1起担任激光关联成像雷达课题组组长，2014年7月起被聘为首批“上海光机所青年特聘研究员”，2021年3月加入苏州大学。近五年来主持承担科技部、国家自然科学基金委、ZF、JKW等国家级项目10余项。以第一作者或通讯作者身份已在Optics Letters、Applied Physics Letters、Photonics Research、Optics Express、Physical Review A等国际期刊上发表SCI论文70余篇，授权发明专利20余项，做邀请报告/担任分会场主席20余次。部分研究成果得到了MIT Technology Review、科技部、文汇报头版头条、中国科学报、新浪网等专门报道，核心研究成果入选国家科技创新成就展、科技部项目成果展以及科技部军民融合展等。曾先后入选中科院青年创新促进会会员（2013年）、首批“上海光机所青年特聘研究员”（2014年）、嘉定区青年领军人才（2015年）、中科院青年创新促进会优秀会员（2017年）、江苏省“333人才工程”（2021年）、江苏省“双创博士”（2022）。长期担任OSA、AIP、APS、IOP等系列期刊审稿人。

上海市科委量子领域专家组成员

中国光学工程学会第一届委员会委员

上海激光学会青年委员会委员

中国科学院青年创新促进会会员

Journal of modern and applied physics编委

Photonics期刊Topical Editor

光场高维调控与计算成像实验室

（1）关联成像技术及其应用

关联成像属于一种新型的凝视成像体制，通过调控光场涨落和计算重构方式获取目标的图像信息，该技术具备高的图像获取效率、超分辨成像和较强的抗烟雾干扰能力。本方向紧密围绕远距离目标探测与识别、水下目标成像、高分辨三维成像、定点监视与态势感知等领域的国家重大需求，基于关联成像原理，开展光学波段/太赫兹波段的系统性理论研究、方案论证、关键技术攻关、样机研制和演示实验，加快关联成像技术的成果转化与应用。

（2）远场超分辨3D显微成像技术

结合光场编码和计算成像技术，充分利用目标和系统的先验信息，开展远场超分辨成像的原理方案验证；结合实际应用，研制远场超分辨3D显微成像仪。具体方向包括：1）基于光场高维编码的远场超分辨成像机理与方案研究；2）基于压缩感知架构的超分辨成像重建理论、快速重建算法与重建软件；3）基于深度学习架构的超分辨成像神经网络构建与加速算法。

（3）光场高维调控与信息融合处理技术

通过光场的高维信息调控、多维信息的融合处理与重建，提升光学探测与成像系统的综合性能。具体方向包括：1）基于新型材料（超构/超颖表面）的电控型高速光场调控；2）基于目标空间结构信息、光谱、偏振、振动等信息的融合理论和融合重建算法。

Year 2025:

1. Wenlin Gong*, Liuya Chen, Zongjun Li, Two-photon interference with thermal light: from incoherent to coherent, Optics and Laser Technology, 190, 113216 (2025).

2. Long Zhang, Zongjun Li, and Wenlin Gong*, Robust high-resolution imaging against translational motion by Fourier-transform ghost diffraction technique, Chinese Optics Letters, 23, 071103, (2025).

3. 许春淼，龚文林*，基于双帧探测信号的被动测距与重聚焦方法研究，光学学报，45，0712002 (2025).

4. 李宗骏，张龙，龚文林*，基于自相关与频谱叠层的超分辨成像，物理学报，74，114203 (2025).

Year 2024:

1. Long Zhang, Jianzhong Liu, and Wenlin Gong*, Motion-deblurring ghost imaging for an axially moving target, Optics Letters, 49, 7078-7081 (2024).

2. Wenlin Gong*, and Shensheng Han, Ghost imaging Lidar: principle, progress, and prospect, Journal of Optics, 26, 123001 (2024).

3. Shihao Chang, Jianzhong Liu, and Wenlin Gong*, Three-dimensional ghost imaging via the Scheimpflug detection, Optics Express, 32, 32655-32666 (2024).

4. Junjie Cai, Jianzhong Liu, and Wenlin Gong*, Coherent ghost imaging via phase compensation, Optics Commucations, 571, 130959 (2024).

5. Weitao Liu, Wenlin Gong* Zhentao Liu, Shuai Sun, and Zhenwu Nie, Progress and applications of ghost imaging with classical sources: a brief review [Invited], Chinese Optics Letters, 22, 111101 (2024).

6. Shihao Chang, Junjie Cai, and Wenlin Gong*, High-quality coherent ghost imaging of a transmission target, Optics Express, 32, 10093-10103 (2024).

7. Junjie Cai, and Wenlin Gong*, Enhancing the ability of single-pixel imaging against the source’s energy fluctuation by complementary detection, Chinese Optics Letters, 22, 031101 (2024).

8. 居世昌，蔡俊杰，龚文林*，单像素压缩成像高质量图像重建特征函数，光学学报，44，0711001 (2024).

Year 2023:

1. Wenlin Gong*, Disturbance-free single-pixel imaging camera via complementary detection, Optics Express, 31, 30505-30513 (2023).

Year 2022:

1. Wenlin Gong*, Performance comparison of computational ghost imaging versus single-pixel camera in light disturbance environment, Optics and Laser Technology, 152, 108104 (2022).

2. Fei Wang, Chenglong Wang, Mingliang Chen, Wenlin Gong, Yu Zhang, Shensheng Han, Guohai Situ, Far-field super-resolution ghost imaging with a deep neural network constraint, Light: Science&Applications, 11, 1 (2022).

3. 龚文林*，陈明亮，韩申生，激光关联成像雷达研究进展与展望，量子电子学报，39，835-850 (2022).

Year 2021:

1. Wenlin Gong*, Sub-Nyquist ghost imaging by optimizing point spread function, Optics Express, 29, 17591-17601 (2021).

2. Zijie Li, Qing Zhao, and Wenlin Gong*, Distorted point spread function and image reconstruction for ghost imaging, Optics and Lasers in Engineering, 139, 106480 (2021).

3. Pengwei Wang, Chenglong Wang, Cuiping Yu, Shuai Yue, Wenlin Gong*, and Shensheng Han. Color ghost imaging via sparsity constraint and non-local self-similarity, Chinese Optics Letters, 19, 021102 (2021).

4. Long Pan, Chenjin Deng*, Wenlin Gong*, and Shensheng Han. The influence of the sparsity of random speckle illumination on ghost imaging in noise environment, Chinese Optics Letters, 19, 041103 (2021).

5. Chunlin Luo, Wenxiu Wan, and Wenlin Gong, Single-pixel imaging for dynamic targets via a non-diffracting beam, Optics and Lasers in Engineering, 139, 106450 (2021).

6. 龚文林*，孙建锋，邓陈进，卢智勇，周煜，韩申生，基于相干探测的单像素激光成像雷达研究进展，激光与光电子学进展，58，1101003 (2021).

Year 2020:

1. Xiaobin Gong, Min Tao, Gang Su, Baohua Li, Jian Guan, Junfeng Song, Siyao Yu, Jian Chen, Wenlin Gong*, and Fengli Gao*. Experimental investigation of anisotropic diffusion applied in ghost imaging reconstruction, Applied Sciences, 10, 6437 (2020).

2. Long Pan, Chenjin Deng*, Wenlin Gong, and Shensheng Han. Experimental demonstration of pulse-compression ghost imaging via coherent detection. Proceedings of SPIE, 11567: 115670S (2020).

3. Long Pan, Chenjin Deng*, Zunwang Bo, Xin Yuan, Daming Zhu, Wenlin Gong* and Shensheng Han, Experimental investigation of chirped amplitude modulation heterodyne ghost imaging[Editor’s Pick], Optics Express, 28, 20808-20816 (2020).

4. Zijie Li, Qing Zhao*, and Wenlin Gong*, Performance comparison of ghost imaging versus conventional imaging in photon shot noise cases, Chinese Optics Letters, 18, 071101 (2020).

5. Zijie Li, Qing Zhao*, and Wenlin Gong*, Experimental investigation of ghost imaging in background light environments, Journal of Optics, 22, 025201 (2020).

6. Zunwang Bo, Wenlin Gong*, and Shensheng Han, Focal-plane three-dimensional imaging method based on temporal ghost imaging: a proof of concept simulation[Spotlight], Journal of the Optical Society of America A, 37, 417-521 (2020).

7. Xiaodong Mei, Chenglong Wang, Yami Fang, Ting Song, Wenlin Gong* and Shensheng Han, Influence of the source’s energy fluctuation on computational ghost imaging and effective correction approaches, Chinese Optics Letters, 18, 042602 (2020).

8. 梅笑冬，龚文林*，韩申生，基于超阈值时间技术的激光关联成像，中国激光，47, 0410003 (2020).

Year 2019:

1. Heyan Huang, Cheng Zhou, Wenlin Gong, and Lijun Song*, Block matching low-rank for ghost imaging, Optics Express, 27, 38624-38634 (2019).

2. Cheng Zhou, Tian Tian, Chao Gao, Wenlin Gong* and Lijun Song*, Multi-resolution progressive computational ghost imaging, Journal of Optics, 21, 055702 (2019).

3. Shuang Ma, Zhentao Liu*, Chenglong Wang, Chenyu Hu, Enrong Li, Wenlin Gong, Zhishen Tong, Jianrong Wu, Xia Shen, and Shensheng Han, Ghost imaging LiDAR via sparsity constraints using push-broom scanning, Optics Express, 27, 13219-13228 (2019).

4. 林俊秀，胡晨昱，王鹏威，薄遵望，龚文林*，多路并行探测提高光子计数关联成像质量研究[优秀论文]，光学学报，39，0511001 (2019).

5. 王成龙，龚文林*，邵学辉，韩申生，接收数值孔径和粗糙目标尺寸对稀疏限制的鬼成像影响研究，中国激光，46，0810002 (2019).

Year 2018:

1. Shensheng Han*, Hong Yu, Xia Shen, Honglin Liu, Wenlin Gong and Zhentao Liu, A Review of Ghost Imaging via Sparsity Constraints, Applied Science 8, 1379 (2018).

2. Cong Yue, Ping Chen, Xiaofeng Lv, Chenglong Wang, Shuxu Guo, Junfeng Song, Wenlin Gong*, and Fengli Gao*, Object reconstruction using the binomial theorem for Ghost Imaging, IEEE Photonics Journal, 10, 3901713 (2018).

3. Chenglong Wang, Xiaodong Mei, Long Pan, Pengwei Wang, Wang Li, Xin Gao, Zunwang Bo, Mingliang Chen, Wenlin Gong*, and Shensheng Han, Airborne Near Infrared Three-Dimensional Ghost Imaging LiDAR via Sparsity Constraint, Remote Sensing, 10, 732 (2018).

4. Han Wu, Chenglong Wang, and Wenlin Gong*, Ghost imaging via sparse structured illumination source, Optics Express, 26, 4183-4191 (2018).

5. Pengwei Wang, Wei Li, Chenglong Wang, Zunwang Bo, and Wenlin Gong*, Super-resolution imaging via sparsity constraint and sparse speckle illumination, Chinese Physics B, 27, 074202 (2018).

6. Xiaofeng Lv, Shuxu Guo, Chenglong Wang, Chao Yang, Hongwei Zhang, Junfeng Song, Wenlin Gong*, and Fengli Gao*, Experimental Investigation of Iterative Pseudo-inverse Ghost Imaging, IEEE Photonics Journal, 10, 3900708 (2018).

7. 龚文林，王成龙，梅笑冬，潘龙，王鹏威，陈明亮，薄遵望，李望，高昕，韩申生，面向实际应用的GISC Lidar 近期研究进展与思考，红外与激光工程，47, 0302001 (2018).

8. 王鹏威，龚文林*，基于散斑照明的成像分辨率研究, 光学学报，38，0911003 (2018).

9. 潘龙，邓陈进，龚文林*，韩申生，非相干探测模式下啁啾调幅关联成像影响因素研究[优秀论文]，光学学报，38，1011001 (2018).

Year 2017：

1. Chenjin Deng, Long Pan, Chenglong Wang, Xin Gao, Wenlin Gong*, and Shensheng Han, Performance analysis of ghost imaging lidar in background light, Photonics Research, 5, 431-435 (2017).

2. Zhan Lei, Chunfang Wang*, Dawei Zhang, Luxiao Wang, and Wenlin Gong*, Second-Order Intensity-Correlated Imaging Through the Scattering Medium, IEEE Photonics Journal, 9, 7500207 (2017).

Year 2016：

1. Wenlin Gong*, Chengqiang Zhao, Hong Yu, Mingliang Chen, Wendong Xu and Shensheng Han, Three-dimensional ghost imaging lidar via sparsity constraint, Scientific Reports, 6, 26133 (2016).

2. Wenlin Gong*, Hong Yu, Chengqiang Zhao, Zunwang Bo, Mingliang Chen and Wendong Xu, Improving the Imaging Quality of Ghost Imaging Lidar via Sparsity Constraint by Time-Resolved Technique, Remote Sensing, 8, 991 (2016).

3. Chenjin Deng, Wenlin Gong*, and Shensheng Han, Pulse-compression ghost imaging lidar via coherent detection, Optics Express, 24, 25983-25994 (2016).

4. Chao Yang, Chenglong Wang, Jian Guan, Chi Zhang, Shuxu Guo, Wenlin Gong*, and Fengli Gao*, Scalar-matrix-structured ghost imaging, Photonics Research, 4, 281-285, (2016).

5. Wenlin Gong*, Correlated imaging for a reflective target with a smooth or rough surface, Journal of Optics, 18, 085702 (2016).

6. Chenglong Wang, Wenlin Gong*, Xuehui Shao and Shensheng Han, The influence of the property of random coded patterns on fluctuation-correlation ghost imaging, Journal of Optics, 18, 065703 (2016).

7. Zunwang Bo, Wenlin Gong*, Enrong Li, and Shensheng Han, Motion de-blurring by second-order intensity-correlated imaging, Chinese Optics Letters, 14, 070301 (2016).

8. 薄遵望，龚文林*, 严毅，韩申生，基于光子计数的关联成像实验研究[优秀论文]，中国激光，43, 1104001 (2016).

9. 梅笑冬，龚文林*，严毅，韩申生，曹清，可预置强度关联激光三维成像雷达实验研究，中国激光，43, 0710003 (2016).

Year 2015：

1. Wenlin Gong*, and Shensheng Han, High-resolution far-field ghost imaging via sparsity constraint, Scientific Reports, 5, 9280 (2015).

2. Wenlin Gong*, High-resolution pseudo-inverse ghost imaging, Photonics Research, 3, 234-237 (2015).

3. Xiaohui Li, Chenjin Deng, Mingliang Chen, Wenlin Gong*, and Shensheng Han, Ghost imaging for an axially moving target with an unknown constant speed Photonics Research, 3, 153-157 (2015).

4. Hong Yu, Enrong Li, Wenlin Gong, and Shensheng Han*, Structured image reconstruction for three-dimensional ghost imaging lidar Opt. Express 23, 14541-14551 (2015).

5. 吴楠，龚文林*，韩申生，基于运动轨迹可调式随机相位板的赝热光鬼成像实验研究[优秀论文]，光学学报，35, 0711005 (2015).

Year 2014：

1. Xuyang Xu, Enrong Li*, Hong Yu, Wenlin Gong, and Shensheng Han, Morphology separation in ghost imaging via sparsity constraint, Optics Express, 22, 14375-14381 (2014).

2. Enrong Li*, Zunwang Bo, Mingliang Chen, Wenlin Gong, and Shensheng Han, Ghost imaging of a moving target with an unknown constant speed, Applied Physics Letters, 104, 251120 (2014).

3. Zunwang Bo, Wenlin Gong*, EnrongLi, and Shensheng Han, Multiple-input ghost imaging via sparsity constraints with thermal light, Applied Physics Express, 7, 102501 (2014).

4. Wenlin Gong*, and Shensheng Han, Single-shot sub-Rayleigh imaging with pixel-limited detection, Applied Physics Express, 7, 062503 (2014).

Year 2013：

1. Cong Zhang, Wenlin Gong*, and Shensheng Han, Improving imaging resolution of shaking targets by Fourier-transform ghost diffraction, Applied Physics Letters, 102, 021111 (2013).

2. Wenlin Gong*, Zunwang Bo, Enrong Li, and Shensheng Han, Experimental investigation of the quality of ghost imaging via sparsity constraints, Applied Optics, 52, 3510-3515 (2013).

3. Mingliang Chen, Enrong Li, Wenlin Gong, Zunwang Bo, Xuyang Xu, Chengqiang Zhao, Xia Shen, Wendong Xu, Shensheng Han, Ghost Imaging Lidar via Sparsity Constraints in Real Atmosphere, Optics and Photonics Journal, 3, 83-85 (2013).

4. Jie Chen, Wenlin Gong*, Shensheng Han, Sub-Rayleigh ghost imaging via sparsity constraints based on a digital micro-mirror device, Physics Letters A, 377, 1844-1847 (2013).

Year 2012：

1. Chengqiang Zhao, Wenlin Gong*, Mingliang Chen, Enrong Li, Hui Wang, Wendong Xu, and Shensheng Han*, Ghost imaging lidar via sparsity constraints, Applied Physics Letters, 101, 141123 (2012).

2. Wenlin Gong*, Shensheng Han, Experimental investigation of the quality of lensless super-resolution ghost imaging via sparsity constraints, Physics Letters A, 376, 1519-1522 (2012).

3. Wenlin Gong*, Shensheng Han*, Multiple-input ghost imaging via sparsity constraints, J. Opt. Soc. Am. A 29, 1571-1579 (2012).

4. Jin Du, Wenlin Gong*, and Shensheng Han, The influence of sparsity property of images on ghost imaging with thermal light, Optics Letters, 37, 1067-1069 (2012).

5. 张聪，龚文林*，韩申生，运动目标强度关联成像及在遥感探测中的应用，中国激光，39，1214003（2012）.

6. 陈明亮，李恩荣，王慧，沈夏，龚文林，韩申生*，基于稀疏阵赝热光系统的强度关联成像研究，光学学报，32，0503001（2012）.

Year 2011：

1. Wenlin Gong*, and Shensheng Han*, Correlated imaging in scattering media, Optics Letters, 36, 394-396 (2011).

2. Wenlin Gong*, and Shensheng Han, Ghost telescope and ghost Fourier telescope with thermal light, Physics Letters A, 375, 990-993 (2011).

Year 2010：

1. Wenlin Gong*, and Shensheng Han, Phase-retrieval ghost imaging of complex-valued objects, Phys. Rev. A, 82, 023828 (2010).

2. Wenlin Gong* and Shensheng Han*, The influence of axial correlation depth of light field on lensless ghost imaging, J. Opt. Soc. Am. B, 27, 675-678 (2010).

3. Wenlin Gong* and Shensheng Han, A method to improve the visibility of ghost images obtained by thermal light, Phys. Lett. A, 374, 1005-1008 (2010).

4. Wenlin Gong*, and Shensheng Han, Lens ghost imaging with thermal light: From the far field to the near field, Phys. Lett. A, 374, 3723-3725 (2010).

5. Shibei He, Xia Shen, Hui Wang, Wenlin Gong, and Shensheng Han, ghost diffraction without a beamsplitter, Appl. Phys. Lett. 96, 181108 (2010).

6. Pengli Zhang, Wenlin Gong, Xia Shen, and Shensheng Han*, Correlated imaging through atmospheric turbulence, Phys. Rev. A, 82, 033817 (2010).

Year 2009：

1. Wenlin Gong, Pengli Zhang, Xia Shen, and Shensheng Han*, Ghost “pinhole” imaging in Fraunhofer region, Appl. Phys. Lett. 95, 071110 (2009).

2. Pengli Zhang, Wenlin Gong, and Xia Shen, Dajie Huang, and Shensheng Han*, Improving resolution by the second-order correlation of light fields, Opt. Lett. 34, 1222-1224 (2009).

3. Pengli Zhang, Wenlin Gong, Xia Shen, Shensheng Han*, and Rong Shu, Homodyne detection in ghost imaging with thermal light, Phys. Rev. A, 80, 033827 (2009).

1、招收光信息、物理、信号与图像处理、应用数学、电子信息背景的本科生、硕士/博士生、博士后。

2、欢迎相关专业的青年教师或青年科研人员加入本课题组，从事科学研究。

3、联系方式：13761196826（电话）、wlgong@suda.edu.cn（邮箱）。

诚聘博士后

一、研究方向

1.基于超构材料的电控型光场调控器件研制及应用

2.基于相干探测的单光子计算成像研究及应用

3.基于深度学习的图像重建算法与高维信息融合研究

二、岗位要求

1.具有良好的政治素质和道德修养，遵纪守法，身心健康；

2.在国（境）内外取得博士学位不超过 3 年；

3.年龄一般不超过 35 周岁；

4.有较强的科研能力和学术研究潜力；

5.在测控、电子学、物理学、光学工程和计算机等方面具备良好的基础；

6.在电子学和物理学方面实验经验较丰富、动手能力强。

三、聘期及待遇

1.博士后聘期为三年；

2.博士后研究人员聘期待遇：

（1）基本年薪：20万元人民币（去除学校承担社会保险和公积金后的税前收入），在站期间按月发放；

（2）奖补金：根据绩效评估结果按年度发放，聘期内绩效评估优秀者奖补金40万元，聘期内绩效评估良好者奖补金20万元；

（3）租房补贴：统招博士后提供租房补贴1000元/月；

（4）在站期间获得国家博士后创新人才支持、博士后国际交流计划引进项目、博士后国际交流项目派出项目、香江学者计划、澳门青年学者计划、中德博士后交流项目等资助的，所获得资助补贴叠加发放；

（5）对于特别优秀的人才，课题组将另外给予补贴，年薪可另议。

有意向者请将详细的个人简历（包括个人联系方式，学习研究工作经历，前期主要研究基础，代表论文等）发送到电子邮箱：wlgong@suda.edu.cn，电子邮件标题请注明：姓名＋现单位＋博士后申请。