師資
汪敬博士,,南方科技大學深港微電子學院副教授(PI),,正高級研究員,,博士生導師,,深圳市車規(guī)級固態(tài)激光雷達工程研究中心副主任,,“廣東特支計劃”科技創(chuàng)新青年拔尖人才,,深圳市孔雀計劃海外高層次人才,。2015年博士畢業(yè)于中國科學院上海微系統(tǒng)與信息技術研究所,。2015年到2018年在世界五百強公司從事面向城域和數(shù)據(jù)中心傳輸?shù)膯纹晒韫馐瞻l(fā)芯片的設計工作,。2018年至2024年在深圳市速騰聚創(chuàng)科技有限公司擔任高級別技術專家,,負責車規(guī)級固態(tài)激光雷達芯片、器件和系統(tǒng),。近5年主持工信部人工智能揭榜掛帥項目,、科技部重點研發(fā)計劃重點專項課題、深圳市科創(chuàng)委技術攻關/基礎研究重點項目等8項政府縱向項目或課題,。申請專利133項,,授權57項,在IEEE JLT\OL\OE\OLT\OFC\ECOC等本領域重要期刊和會議上面發(fā)表論文20余篇,,出版硅光芯片設計領域的英文專著1本,,集成電路布局設計著作權7項。他有30余次基于90 nm~130 nm CMOS工藝的硅光流片經(jīng)驗,,參與全國最早的硅光工藝平臺的建設,,是國內(nèi)較早從事硅光芯片研究和產(chǎn)品化的技術專家之一,,在大規(guī)模集成硅光芯片和激光雷達系統(tǒng)領域方面取得了多項有影響力的創(chuàng)新成果。曾編寫激光雷達標準1項,,做邀請報告10余次,。他還獲得過南山區(qū)十大創(chuàng)新工匠、中科院優(yōu)秀博士學位論文,、中國科學院院長獎,、博士國家獎學金等榮譽。他是IEEE\中國光學學會\中國光學工程學會的高級會員,,卓越行動計劃高起點新刊Moore and More(MaM)的青年編委,,擔任多個期刊的審稿人,以及多個科技部門的評審專家,。
招聘信息
汪敬博士課題組常年招聘博士后,、科研助理,招收博士生,、碩士生,、本科實習生,有意應聘者請將簡歷(格式PDF)發(fā)送至以下郵箱,,以“招聘崗位_應聘者姓名”為題,。
聯(lián)系方式:[email protected]
教育經(jīng)歷
2015年,中國科學院上海微系統(tǒng)與信息技術研究所,,博士學位
2013年-2014年,,美國普渡大學,聯(lián)合培養(yǎng)
2010年,,中國科學技術大學,,學士學位
工作經(jīng)歷
2024年7月至今,南方科技大學,,副教授
2018年7月至2024年6月,,深圳市速騰聚創(chuàng)科技有限公司,P9級別專家
2015年7月至2018年7月,,世界五百強企業(yè),,高級工程師
獲得獎項
1、深圳市南山區(qū)“十大創(chuàng)新工匠”,,2023年
2,、“廣東特支計劃”科技創(chuàng)新青年拔尖人才,2019年
3,、世界五百強企業(yè)網(wǎng)絡產(chǎn)品線金網(wǎng)絡獎,,7次,2015年到2018年
4,、深圳市海外高層次人才計劃“孔雀計劃”,,2015年
5、深圳市龍崗區(qū)“深龍英才”,,2017年
6,、中國科學院優(yōu)秀博士論文獎,2016年
7,、中國科學院院長獎,,2014年
8、博士研究生國家獎學金,,2014年
9,、中科院上海微系統(tǒng)所所長獎學金,2015年
10,、中科院三好學生,,2013年/2014年
11、中國科學院優(yōu)秀學生干部,,2013年
12,、上海市科技系統(tǒng)優(yōu)秀團干部,2013年
研究方向
1,、 器件機理:基于CMOS異質(zhì)集成平臺的高性能硅光器件單元機理研究和器件設計
2,、 芯片設計:面向激光雷達、車載光通信和量子計算等應用的大規(guī)模多功能光電集成芯片設計
3,、 系統(tǒng)驗證:下一代四維感知激光雷達系統(tǒng),、硅光車載環(huán)形通信網(wǎng)絡的應用驗證
代表性成果
1、專著
[B1] J. Wang, CMOS-Compatible Key Engineering Devices for High-Speed Silicon-Based Optical Interconnections, Springer, 2019, ISBN 978-981-13-3377-4(Hardcover), ISBN 978-981-13-3378-1(Online)
2,、期刊論文
[J1] J. Wang*, L. Zhu, B. Niu, Y. Zuo, D. Zhou, R. Zhu, H. Xu, H. Wang, W. Zhu, X. Jiang, Q. Liu, and D. Zhang, “Enhanced Three-Channel Dual-Polarization Silicon Photonic Coherent Receiver for Long-Range FMCW Laser Ranging Systems,” Optics and Laser Technology, vol. 182, 112131, 2025.
[J2] J. Wang*, J. Liao, L. Zhu, P. Dong, X. Jiang, H. Wang, and Q. Liu, "Silicon Photonic FMCW LiDAR Calibration Engine with Optimized On-Chip Delay Lines," Journal of Lightwave Technology, DOI: 10.1109/JLT.2024.3480092.
[J3] J. Wang*, L. Zhu, B. Niu, “Integrated nonlinearity calibration optical-electrical engine for FMCW LiDAR application,”O(jiān)ptics Letters, vol. 48, no. 23, pp. 6100-6103, 2023.
[J4] J. Wang, Y. Xuan, M. Qi, H. Huang, Y. Li, M. Li, X. Chen, Z. Sheng, A. Wu, W. Li, X. Wang, S. Zou, and F. Gan, “Broadband and fabrication-tolerant on-chip scalable mode-division multiplexing based on mode-evolution counter-tapered couplers,” Optics Letters, vol. 40, no. 9, pp. 1956-1959, 2015.
[J4] J. Wang, C. Lee, B. Niu, H. Huang, Y. Li, M. Li, X. Chen, Z. Sheng, A. Wu, W. Li, X. Wang, S. Zou, F. Gan, and M. Qi, "A silicon-on-insulator polarization diversity scheme in the mid-infrared," Optics Express, vol. 23, no. 11, pp. 15029-15037, 2015.
[J5] J. Wang, M. Qi, Y. Xuan, H. Huang, Y. Li, M. Li, X. Chen, Q. Jia, Z. Sheng, A. Wu, W. Li, X. Wang, S. Zou, and F. Gan, "Ultra-broadband silicon-on-insulator polarization beam splitter based on cascaded mode-sorting asymmetric Y-junctions," IEEE Photonics Journal, vol. 6, no. 6, pp. 2700608, 2014.
[J6] J. Wang, M. Qi, Y. Xuan, H. Huang, Y. Li, M. Li, X. Chen, Q. Jia, Z. Sheng, A. Wu, W. Li, X. Wang, S. Zou, and F. Gan, "Proposal for fabrication-tolerant SOI polarization splitter-rotator based on cascaded MMI couplers and an assisted bi-level taper," Optics Express, vol. 22, no. 23, pp. 27869-27879, 2014.
[J7] J. Wang, B. Niu, Z. Sheng, A. Wu, W. Li, X. Wang, S. Zou, M. Qi, and F. Gan, "Novel ultra-broadband polarization splitter-rotator based on mode-evolution tapers and a mode-sorting asymmetric Y-junction," Optics Express vol. 22, no. 11, pp. 13565-13571, 2014.
[J8] J. Wang, B. Niu, Z. Sheng, A. Wu, X. Wang, S. Zou, M. Qi, and F. Gan, "Design of a SiO2 top-cladding and compact polarization splitter-rotator based on a rib directional coupler," Optics Express, vol. 22, no. 4, pp. 4137-4143, 2014.
[J9] J. Wang, Z. Sheng, L. Li, A. Pang, A. Wu, W. Li, X. Wang, S. Zou, M. Qi, and F. Gan, "Low-loss and low-crosstalk 8×8 silicon nanowire AWG routers fabricated with CMOS technology," Optics Express, vol. 22, no. 8, pp. 9395-9403, 2014.
[J10] J. Wang, C. Qiu, H. Li, W. Ling, L. Li, A. Pang, Z. Sheng, A. Wu, X. Wang, S. Zou, and F. Gan, "Optimization and Demonstration of a Large-bandwidth Carrier-depletion Silicon Optical Modulator," Journal of Lightwave Technology, vol. 31, no. 24, pp. 4119-4125, 2013.
3,、會議論文
[C1] J. Wang*, S. Deng, C. Wong, Y. Wen, W. Wei, T. Wang, G. N. Liu, E. Zhou and L. Liu, “Monolithically Integrated Silicon Hybrid Demultiplexer with Improved Loss and Crosstalk Suppression” in 42nd European Conference on Optical Communication (ECOC), 2017.
[C2] J. Wang*, S. Deng, C. Wong, Y. Wen, W. Wei, T. Wang, G. N. Liu, E. Zhou and L. Liu, “Optimized 32-channel silicon hybrid demultiplexer fabricated with CMOS technology, ” in IEEE 14th International Conference on Group IV Photonics (GFP), 2017.
[C3] J. Wang*, Y. Xuan, M. Qi, L. Liu, and G. N. Liu, "Ultra-broadband Integrated Four-Channel Mode-Division-Multiplexing Based on Tapered Mode-Evolution Couplers," in 41nd European Conference on Optical Communication (ECOC), pp. 1-3, 2016.
[C4] J. Wang*, Y. Xuan, M. Qi, L. Liu, and G. N. Liu, "Comparison and analysis on single-layer Si fiber-to-chip edge couplers with different taper tips," in 13th IEEE International Conference on Group IV Photonics (GFP), pp. 44-45, 2016.
[C5] J. Wang*, Y. Xuan, C. Lee, B. Niu, L. Liu, G. N. Liu, and M. Qi, "Low-loss and misalignment-tolerant fiber-to-chip edge coupler based on double-tip inverse tapers," in Optical Fiber Communication Conference(Optical Society of America, Anaheim, California), p. M2I.6, 2016.
[C6] J. Wang, B. Niu, H. Huang, Y. Li, M. Li, Z. Sheng, A. Wu, W. Li, X. Wang, S. Zou, M. Qi, and F. Gan, "A fabrication-tolerant SOI polarization splitter-rotator with cascaded MMI couplers and an assisted bi-level taper," in Asia Communications and Photonics (ACP) Conference 2014, OSA Technical Digest (online) (Optical Society of America, 2014), paper ATh3A.9, Shanghai, China, November 11-14, 2014.
[C7] J. Wang, Z. Sheng, L. Li, A. Pang, A. Wu, W. Li, X. Wang, S. Zou, M. Qi and F. Gan, "Improved performance in Si nanowire AWG routers based on a comparative study of optimization techniques," in 11th IEEE International Conference on Group IV Photonics (GFP), paper WP22, Paris, France, August 27-29, 2014.
[C8] J. Wang, C. Qiu, H. Li, L. Li, A. Pang, Z. Sheng, A. Wu, X. Wang, S. Zou, and F. Gan, "High-speed Silicon Mach-Zehnder Modulator Operating Beyond 40 Gb/s," in Asia Communications and Photonics (ACP) Conference 2012, OSA Technical Digest (online) (Optical Society of America, 2012), paper ATh2B.3, Guangzhou, China, November 7-10, 2012.
4、發(fā)明專利(只列出代表性10項)
[P1] 汪敬,、甘甫烷,、盛振、武愛民,、仇超,、王曦、鄒世昌,,硅基光調(diào)制器,,申請?zhí)枺?01410621547.3
[P2] WANG Jing, LIU Ning, OPTICAL ADD/DROP MULTIPLEXER, CONTROL METHOD THEREFOR, AND TRANSCEIVER, 申請?zhí)枺篜CT/CN16090994,專利號:US10484122B2
[P3] WANG Jing, LIU Ning, OPTICAL ADD/DROP MULTIPLEXER, CONTROL METHOD THEREFOR, AND TRANSCEIVER, 申請?zhí)枺篜CT/CN16090994,,專利號:EP3480980B1
[P4] 汪敬,,光學相控陣及其相位誤差改善方法、激光雷達,、智能設備,,申請?zhí)枺?01980002797.X
[P5] 汪敬,,應用于光學相控陣的天線陣列、光學相控陣及激光雷達,,申請?zhí)枺?01980002799.9
[P6] 汪敬,、任亞林、牛犇,、朱琳,,相控陣發(fā)射裝置、激光雷達和自動駕駛設備,,申請?zhí)枺?01980002788.0
[P7] 汪敬,、朱琳、邱純鑫,、劉樂天,,光收發(fā)模組、激光雷達,、自動駕駛系統(tǒng)及可移動設備,,申請?zhí)枺?022112192083
[P8] 汪敬、朱琳,、邱純鑫,、劉樂天,波導轉(zhuǎn)換芯片,、調(diào)頻連續(xù)波激光雷達及自動駕駛設備,,申請?zhí)枺?022116005601
[P9] 汪敬、邱純鑫,、劉樂天,,調(diào)頻連續(xù)波激光雷達及自動駕駛設備,申請?zhí)枺?022115996791
[P10] 汪敬,,光芯片及激光雷達,,申請?zhí)枺?023105117909
5、主持的科研項目(PI)
[1] 深圳市基礎研究重點項目, 2024-2027
[2] 深圳市協(xié)同創(chuàng)新專項課題,,2024-2027
[3] 科技部國家重點研發(fā)計劃智能傳感器重點專項課題,,2021-2024
[4] 工信部人工智能產(chǎn)業(yè)創(chuàng)新任務揭榜掛帥項目,2021-2023
[5] 深圳市創(chuàng)新創(chuàng)業(yè)計劃技術攻關重點項目,,2023-2025
[6] 南山區(qū)技術攻關聯(lián)合支持計劃,, 2023-2023
[7] 深圳市協(xié)同創(chuàng)新科技計劃,2021-2023
[8] 廣東特支計劃科技創(chuàng)新青年拔尖人才項目,,2020-2023
6,、主要承擔的科研項目
[1] 深圳市發(fā)展和改革委員會戰(zhàn)略性新興產(chǎn)業(yè)扶持計劃,2023-2026
[2] 工信部產(chǎn)業(yè)基礎再造和制造業(yè)高質(zhì)量發(fā)展專項,,2022-2025
[3] 廣東省科學技術廳重點研發(fā)計劃,,2019-2021
[4] 國家發(fā)改委“互聯(lián)網(wǎng)+”和數(shù)字經(jīng)濟專項,,2019-2020
[5] 863子課題,2015-2017
[6] 上海市科委基礎研究重大項目課題,,2014-2017
[7] 裝備預研基金重點項目,,2013-2014
[8] 863子課題,2012-2014
[9] 中國科學院知識創(chuàng)新工程重要方向項目,,2010-2012
[10] 上海市科委基礎研究重大項目課題,,2010-2013