• 宽禁带半导体光电子器件
• 氮化镓激光器，超辐射发光二极管
• 光子集成电路，氮化物调制器，SOA
• 智能照明，可见光通信
• 自由空间光通信
• 无线光通信
• 高速水下无线光通信
• 
  

*NEWS*

• Our group members have been admitted to 2024 Siegman International School on Lasers sponsored by Optica!
• Congratulations to Junhui and the collaborators on the UWOC work published on Nature Communications!
• Congratulations to Dong and the collaborators on the three terminal UV diode work published on Nature Electronics! The work has been selected as the cover article!
• Congratulations to Junfei on high-speed laser work published on Photonics Research!
• Congratulations to Xingchen on being awarded Fudan-Guanggu Scholarship 光谷奖学金!

目前承担国家自然科学基金、科技部、上海市科委、江苏省重点研发等多项科研项目，实验室具有一流的实验研究条件，与国内外多所实验室建立合作。

欢迎电子信息、通信、微电子、材料物理、光电等专业同学加入！

欢迎在来信中说明是否符合研究生外国语免修标准(托福、雅思、六级、GRE、GMAT、口译等)：https://gs.fudan.edu.cn/f1/35/c12939a454965/page.htm

https://www.scholarmate.com/P/chaoshen

• 第三代半导体产业技术创新战略联盟(CASA)青年创新促进委员会委员

• IEEE Photonics Journal 期刊副主编

• APL Photonics Early Career Editorial Advisory Board

• IEEE Electron Devices Society (EDS) Young Professionals Committee

• IEEE Smart Cities Publication Committee

• Senior Member, IEEE

• Senior Member, Optica

• 日本大川基金会信息通信研究助成奖 （2022）

• CASA 第三代半导体卓越创新青年 （2021）

• IEEE OGC Optoelectronic Innovation Challenge （2020）

• 美国NYS Luminate Lighting Award（2019）

• 芬兰 Nokia Open Innovation Challenge （NOIC 2019）

• 教育部"春晖杯"中国留学人员创新创业大赛优胜奖 （2019）

• IEEE Photonics Conference Best Poster Award （2016）

2011 天游ty8官方网站材料科学系，材料物理，BSc.

2013 King Abdullah University of Science and Technology (KAUST)，Materials Science and Engineering，MSc.

2017 KACST-KAUST-UCSB, Solid State Lighting Program, PhD.

2017-2018 KAUST创新中心，研究顾问

2017-2020 SaNoor技术公司，研究主管、主任科学家

《光电子学》

《工程伦理与研究方法》

《专业外语》

《微电子与光电子器件建模与仿真》

《智能光电子导论》

《Laser and Integrated Photonics》

《Engineering Ethics and Research Methodology》

https://scholar.google.com/citations?user=UfsNEqgAAAAJ&hl=en

• 已在第三代半导体光电子器件，无线激光通信芯片与水下光通信系统领域发表SCI论文80余篇，总引用超过3300次。
  
• 在IEDM, ISLC, CLEO, OFC, IPC等国际重要学术会议发表论文50余篇，大会特邀报告20余次。
  
• 在高速光子集成电路与水下高速无线光通信领域申请多项美国、加拿大、澳洲专利，其中10项已授权。
  

近期部分论著有：

[1].       A wide field-of-view laser based white light transmitter for visible light communications, Optics Letters, (2024)

[2].       A metasurface-based full-color circular auto-focusing Airy beams transmitter for stable high-speed underwater wireless optical communication, Nature Communications, 15, 2944 (2024)

[3].       High-speed GaN-based laser diode with modulation bandwidth exceeding 5 GHz for 20 Gbps visible light communication, Photonics Research, (2024)

[4].       A three-terminal light emitting and detecting diode, Nature Electronics, 7, 279–287 (2024)

[5].       A Novel Mobile Fronthaul Solution Based on Visible Light Fiber Communication and Zero-padding 8-D CAP Modulation, Optics Express, (2024)

[6].       High Wall-Plug Efficiency AlGaN Deep Ultraviolet Micro-LEDs Enabled by an Etched Reflective Array Design for High Data Transmission, IEEE Transactions on Electron Devices, 71, 5, 3069-3076 (2024)

[7].       High-Speed GaN-Based 405 nm Violet Superluminescent Diode with Tilted Facet for Visible Light Communications, Phys. Status Solidi A 2024, 2300670

[8].       Modulation format recognition in a UVLC system based on an ultra-lightweight model with communication-informed knowledge distillation, Optics Express 32 (8), 13095-13110 (2024)

[9].       Flexible 2× 2 multiple access visible light communication system based on an integrated parallel GaN/InGaN micro-photodetector array module, Photonics Research 12 (4), 793-803 (2024)

[10].    Lens-free wavefront shaping method for a diffuse non-line-of-sight link in visible light communication, Chinese Optics Letters 22 (2), 020603 (2024)

[11].    113Gbps rainbow visible light laser communication system based on 10λ laser WDM emitting module in fiber-free space-fiber link, Optics Express 32 (2), 2561-2573 (2024)

[12].    Simplified Neural Network With Physics-Informed Module in MIMO Visible Light Communication Systems, Journal of Lightwave Technology (2024)

[13].    11.2 Gbps 100-meter free-space visible light laser communication utilizing bidirectional reservoir computing equalizer, Optics Express 31 (26), 44315-44327 (2023)

[14].    15.26 Gb/s Si-substrate GaN high-speed visible light photodetector with super-lattice structure, Optics Express 31 (20), 33064-33076 (2023)

[15].     “Recent Advances in Optical Injection Locking for Visible Light Communication Applications”, Photonics 2023, 10(3), 291. 

《可见光通信新型发光器件原理与应用》，人民邮电出版社，ISBN：9787115518132