杨海宁，博士，太阳成tyc9728副经理，教授。2014年获剑桥大学光电子专业博士学位；历任剑桥大学先进光电子中心助理研究员、博士后研究员、嵌入式研究员、剑桥大学孵化的ROADMap Systems高科技有限公司初创成员及首席工程师、美国光学学会激光技术小组领导委员会成员。长期从事空间光场调控技术以及其在信息显示、光通信、光交换领域的研究工作。产学研合作经验丰富，具有中英两国高新技术创业落地经历，相关成果先后在华为、Huber+Suhner灏讯等行业龙头企业实现转化，服务东数西算等国家重大战略。

课题组长期面向产业需求开展液晶技术和AI智能控制技术在智算网络、信息显示和感知等领域的研究工作，并与行业龙头企业、国际知名高校和科研机构建立了长期稳定的合作关系。

2011.01-2014.11，英国剑桥大学，博士

2005.09-2009.07，太阳成集团tyccc，本科

2018.06-至今，太阳成集团tyccc，教授/江苏省特聘教授

2014.11-2019.06，ROADMap Systems高科技有限公司，首席工程师

2014.07-2017.12，英国剑桥大学，嵌入式研究员

2009.07-2010.12，太阳成集团tyccc，研究助理

常年招收光电子和集成电路方向的硕士博士研究生和博士后，可提供有竞争力的科研条件和薪资。课题组支持超80%的硕士和博士研究生前往欧美领域顶会开展学术交流。

电子系统设计 2020年-至今

显示技术（研讨） 2020年-至今

中国近代科学技术史概要  2022至今

课题组核心技术多项核心技术成果通过与行业龙头企业合作落地服务东数细算AI智算网络。

代表论文：

1.         J. Song, M. Sun, D. Chu and H. Yang*, Advanced Pixel Engineering for High-Resolution Spatial Light Modulators Based on Liquid Crystal on Silicon Technology, ACS Photonicts, (2025).

2.         Z. Wen, Y. Hou, Y. Chen, S. Yu, Z. Xu, F. Li, H. Yang*, K. Zhang, Z.Zhang, L. Zhang, Q. Song, X. Peng, Y. Yue*, Z. Zhang*, Improved acquisition performance of inter-satellite laser communication system through non-mechanical adaptive beam control, Optics and Lasers in Engineering, 194, 109217 (2025). 

3.         Y. Shi and H. Yang*, Efficient Generation of Axially Multi-Focused Spot Arrays Based on a Novel Iterative Algorithm, Imaging 2025, (2025).

4.         P. Niu, S. Wang, J. Bao, T. Chen, J. Nie and H. Yang*, Advanced Modelling of Liquid Crystal Metasurface Devices for Miniature Spectrometers, Optics Letters, 50(16), 4978-4981 (2025).

5.         H. Wei, J. Nie and H. Yang*, Rapid Calibration of High-Performance Wavelength Selective Switches Based on the Few-Shot Transfer Learning, Journal of Lightwave Technology, 43(14), 6682-6689  (2025).

6.         R. Guo, X. Yu and H. Yang*, Ultra-Fast Fibre Optic Alignment System for Free-Space Optical Communications Utilizing Multi-Spot Beams, Optical Fiber Communication Conference (2025).

7.         H. Wei, W. Chen and H. Yang*, Scaling wavelength selective switches for multi-band and space-division-multiplexed networks, IEEE/OSA Journal of Optical Communications and Networking, 16(11), pp. H9-H17, (2024).

8.         J. Nie, T. Chen, S. Jiang, P. Dai, D. Chu and H. Yang*, Computational Hyperspectral Single-pixel Camera based on Liquid Crystal Metasurface, Applied Industrial Spectroscopy, JF3A.6 Post-deadline paper  (2024).

9.         Z. Huang, S. Yang, Z. Zheng, X. Pan, H. Li and H. Yang*, Highly compact twin 1x35 Wavelength Selective Switch, Journal of Lightwave Technology, 41(1), 233-239  (2023).

10.       H. Wang, J. Nie, R. Guo and H. Yang*, Holographic Optical Fibre Switching with High Isolation, Opto-Electronics and Communications Conference (OECC), Shanghai, Jul. (2023).

11.       Y. Lei, X. Zhang, H. Yang* and D. P. Chu, Parametric generation of variable spot arrays based on multi-level phase modulation, Photonics, 9(9), 633 (2022).

12.       J. Nie, L. Tian, F. Zhang, B. Li, and H. Yang*, Parametric hologram optimization for enhanced underwater wireless optical communication, Optics Express 30(13), 23967-23977 (2022). 

13.       J. Nie, L. Tian, S. Yue, Z. Zhang and H. Yang*, Adaptive optical focusing for Enhanced Underwater Wireless Optical Communication with Parametric Hologram Optimisation, Digital Holography and Three-Dimensional Imaging, W5A. 33 (2022).

14.       Y. Lei, X. Zhang, H. Yang* and D. P. Chu, Holographic Beam Spot Array Generation based on Multi-level Phase Modulation, Digital Holography and Three-Dimensional Imaging, W5A. 17 (2022).

15.       H. Wang, J. Nie, H. Zhang and H. Yang*, High-Performance Holographic Optical Fibre Switches Enabled by Deep Learning Neural Network, Digital Holography and Three-Dimensional Imaging, W5A. 16 (2022).

16.       Z. Huang, M. Huang, J. Liu, X. Li, R. Guo, H. Guo, H. Yang*, High-performance beam steering based on liquid crystal on silicon device operating at low bit depths with the maximum efficiency, Optics and Lasers in Engineering, 156, 107083 (2022). 

17.       L. Tian, J. Nie, H. Yang*, Beam Shaping for Wireless Optical Charging with Improved Efficiency, Crystals, 11(8), 970 (2021).

18.       J. Nie, L. Tian, H. Wang, L. Chen, Z. Li, S. Yue, Z. Zhang, and H. Yang*, Adaptive beam shaping for enhanced underwater wireless optical communication, Optics Express 29(8), 26404-26417 (2021).

19.       Z. Yang, S. Wu, J. Nie, H. Yang*, Uncertainty in the Phase Flicker Measurement for the Liquid Crystal on Silicon Devices, Photonics, 8(8), 307 (2021).

20.       J. Nie, L. Tian, S. Yue, Z. Zhang and H. Yang*, Advanced Beam Shaping for Enhanced Underwater Wireless Optical Communication, Optical Fiber Communication Conference (2021).

21.       J. Nie, L. Dong, X. Tong, Y. Xu, W. Lin and H. Yang*, Phase Flicker Minimisation for Crosstalk Suppression in Optical Switches based on Digital Liquid Crystal on Silicon Devices, Optics Express, 29(7), 10556-10567 (2021).

22.       H. Yang*, K. Li and D. P. Chu, Liquid Crystal on Silicon Technology and Reconfigurable All-Optical Networks, Chinese Journal of Liquid Crystals and Displays, , 36(6), 772-788 (2021). 

23.       H. Yang, P. Wilkinson, B. Robertson, S. Giltrap, O. Snowdon, H. Prutton and D. P. Chu, 24 [1x12] Wavelength Selective Switches Integrated on a Single 4k LCoS Device, Journal of Lightwave Technology, 39(4), 1033-1039  (2021).

24.       D. P, Chu and H. Yang*, “2D Beam Steering and Stacked LCOS WSSs for Cost-Effective Optical Networks,” Opto-Electronics and Communications Conference (OECC), Taipei, Oct. 2020.

25.       H. Yang* and D. P. Chu, Phase flicker in liquid crystal on silicon devices, Journal of Physics Photonics, 2(3), 032001 (2020). Editor’s Choice 2020

26.       H. Yang* and D. P. Chu, Transient Crosstalk in Holographic Optical Switching Based on Wavefront Encoding, Journal of Lightwave Technology, 38(7), 1618-1624 (2020). 

27.       P. Wilkinson, B. Robertson, S Giltrap, O. Snowdon, H. Prudden, H. Yang and D. P. Chu, 24 1x12 Wavelength-Selective Switches Using a 312-port 3D Waveguide and a Single 4k LCoS, Optical Fiber Communication Conference, Th1J.2 (2020).

28.       H. Yang* and D. P. Chu, Iterative Phase-Only Hologram Generation Based on the Perceived Image Quality, Applied Sciences 9(20), 4457 (2019)

29.       H. Yang* and D. P. Chu, Phase flicker optimisation in digital liquid crystal on silicon devices, Optics Express 27(17), 24556-24567 (2019) Editor’s Pick

30.       H. Yang* and D. P. Chu, Digital phase-only liquid crystal on a silicon device with enhanced optical efficiency, OSA Continuum 2(8), 2445-2459 (2019)

31.       H. Yang and D. P. Chu, LCOS-based holographic wavelength selective switching platform, Liquid Crystals XXII 10735, 107350T (2018)

32.       H. Yang, P. Dolan, B. Robertson, P. Wilkinson, and D. P. Chu, Crosstalk Spectrum Optimisation for Stacked Wavelength Selective Switches Based on 2D Beam Steering, Optical Fiber Communication Conference, Th1J.2 (2018).

33.       H. Yang, P. Wright, B. Robertson, P. Wilkinson, P. Dolan, A. Lord, and D. P. Chu, Impact of WSS Filtering Penalty on the Capacity of Elastic WDM Ring Optical Networks, Optical Fiber Communication Conference, Th2A.43 (2018).

34.       H. Yang, B. Robertson, P. Wilkinson, and D. P. Chu, Low-cost CDC ROADM Architecture Based on Stacked Wavelength Selective Switches, IEEE/OSA Journal of Optical Communications and Networking, 9(5), 375-384, (2017). 

35.       H. Yang, R. Wang, P. Wright, A. Mitra, B. Robertson, P. Wilkinson, S. Kar, A. Lord, D. P. Chu, Impact of WSS Passband Narrowing Effect on the Capacity of the Flexible-spectrum Networks, Optical Fiber Communication Conference, W1I.5 (2017).

36.       Z. Zhang, H. Xu, H. Yang, Z. You, D. P. Chu, Temperature-dependent optical response of phase-only nematic liquid crystal on silicon devices, Chinese Optics Letters, 14 (11), 111601 (2016). 

37.       H. Yang, B. Robertson, P. Wilkinson, and D. P. Chu, Stacked wavelength selective switch design for low-cost CDC ROADMs, OptoElectronics and Communications Conference (OECC) and Photonics in Switching (PS) Conference, ME2-3, (2016).

38.       H. Yang, B. Robertson, P. Wilkinson, and D. P. Chu, Small phase pattern 2D beam steering and a single LCOS design of 40 1× 12 stacked wavelength selective switches, Optics Express, 24(11), 12240-12253 (2016).

39.       H. Yang, L. Liu, H. Tang, S. Qin, H Yin, Y. Tu, and I. Heynderickx, Relationship of Just Noticeable Difference (JND) in Black Level and White Level with Image Content, Journal of Display Technology, 10(6), 470-477 (2014).

40.       H. Yang, B. Robertson, and D. P. Chu, Crosstalk Reduction in Holographic Wavelength Selective Switches Based on Phase-only LCOS Devices, Optical Fiber Communication Conference, Th2A. 23 (2014).

41.       B. Robertson, H. Yang, M. M. Redmond, N. Collings, J. R. Moore, J. Liu, A. M. Jeziorska'Chapman, M. Pivnenko, S. Lee, A. Wonfor, I. H. White, W. A. Crossland, and D. P. Chu, Demonstration of Multi-casting in a 1×9 LCOS Wavelength Selective Switch, Journal of Lightwave Technology, 32(3), 402-410 (2014).

42.       H. Yang, B. Robertson, D. Yu, Z. Zhang, and D. P. Chu, Origin of Transient Crosstalk and Its Reduction in Phase-only LCOS Wavelength Selective Switches, Journal of Lightwave Technology, 31(23), 3822-3829 (2013). 

43.       H. Yang, B. Robertson, and D. P. Chu, A non-intrusive in situ method of optical beam profiling in LCOS-based optical fiber switches, Optics and Lasers in Engineering, 51(7), 916-920 (2013).

44.       H. Yang, B. Robertson, and D. P. Chu, Transient Crosstalk in LCOS Based WSS and a Method to Suppress the Crosstalk Levels, Optical Fiber Communication Conference, OW1C.3 (2013).

45.       Z. Zhang, H. Yang, B. Robertson, M. Redmond, M. Pivnenko, N. Collings, B. Crossland, and D. P. Chu, Diffraction Based Phase Compensation Method for Phase-Only Liquid Crystal on Silicon (LCOS) Devices in Operation, Applied Optics, 51(17), 3837-3846 (2012). 

46.       B. Robertson, Z. Zhang, H. Yang, M. M. Redmond, N. Collings, J. Liu, R. Lin, A. M. Jeziorska-Chapman, J. R. Moore, W. A. Crossland, and D. P. Chu, Application of the Fractional Fourier Transform to the Design of LCOS Based Optical Interconnects and Fiber Switches, Applied Optics, 51(12), 2212-2222 (2012).

47.       B. Robertson, H. Yang, M. M. Redmond, N. Collings, J. Liu, A. M. Jerziorska-Chapman, J. R. Moore, Z. Zhang, W. A. Crossland, A. Wonfor, and others, The Use of Wavefront Encoding to Reduce Crosstalk in a Multicasting Fiber Telecom Switch, Optical Fiber Communication Conference, OM2J.6 (2012).

48.       B. Robertson, Z. Zhang, H. Yang, M. M. Redmond, N. Collings, J. Liu, R. Lin, A. M. Jeziorska-Chapman, J. R. Moore, W. A. Crossland, and others, Reduction of crosstalk in a colourless multicasting LCOS-based wavelength selective switch by the application of wavefront encoding, Proceedings of SPIE, 8424 (2012).

49.       J. Xia, D. Qu, H. Yang, J. Chen, and W. Zhu, Self assembly polymer microlens array for integral imaging, Displays, 31(4), 186-190 (2010).

50.       H. Yang, J. Xia, and B. Wang, Computational Reconstruction Three-Dimensional Object Using Integral Imaging, 1st International Conference On Information Science and Engineering (ICISE) (2009).

51.       H. Yang, S. Qin, H. Yin, L Liu, and I. Heynderickx, Measuring Image Attributes in Units of Just Noticeable Differences for Natural Content, The 11th Asian Symposium on Information Display (ASID’09), 129, (2009)

国际专利：

1.         A method to Cool the Spatial Light Modulator, Z. Long, K. Li, X. Li and H. Yang, (2022) CN219179765U

2.         Spectrum establishing method and device, L. Tian, J. Nie, H. Yang, and D. P. Chu (2022) CN115060364A

3.         Holographic dot matrix coherent imaging method and system, H. Yang, Y. Lei, and D. P. Chu (2022) CN114646613B

4.         Wavelength Selective Switches with Multiplexed Pixel Areas, H. Yang，(2021) CN112987185A

5.         Beam Shaping for Free Space Optical Communications, H. Yang, L. Tian and J. Nie (2021) CN113078955A

6.         Method and device for measuring actual reflectivity of liquid crystal device, H. Yang and D. P. Chu (2020) CN111366561B

7.         Optical Switching Systems, H. Yang, B. Robertson, P. Wilkinson, and D. P. Chu (2019) US10700804 (B2).

8.         Optical Switching Unit, H. Yang, B. Robertson, D. P. Chu (2018) US11418861 (B2)

9.         Multiple wavelength band optical switching unit, H. Yang, B. Robertson, D. P. Chu (2024) US12124085 (B2).

10.       Polarising Display, H. Yang and D. Chu (2018) WO2019150129 (A1)

11.       A space-division multiplexed reconfigurable, wavelength selective switch, H. Yang and D. Chu (2021). US10996399 (B2)

12.       Optical Switching Systems, H. Yang, B. Robertson, P. Wilkinson, and D. P. Chu (2019) US10491322 (B2)

13.       Optical Systems, H. Yang, B. Robertson, and D. P. Chu (2015) US10587936 (B2)

14.       Space phase modulator and method for fabricating same, H. Yang, D. P. Chu and L. Zong (2015) US10942397 (B2)

15.       Polarisation-independent, optical multiplexing and demultiplexing systems based on ferroelectric liquid crystal phase modulators for spatial mode division multiplexing and demultiplexing, H. Yang and D. P. Chu (2020) US 10761392 (B2)

1. 华为优秀技术合作成果奖（每年仅10项）；

2. 华为火花奖；

3. 太阳成集团tyccc优秀研究生课程思政示范课程和教学名师培育对象（全校10项）

4. 首届太阳成集团tyccc青年科学家项目指导教师（全校10项）

5. 2025年太阳成集团tyccc本科生学术之星指导教师（全校10项）

常年在以下方向招收硕士、博士研究生和博士后。可提供有竞争力的科研条件和薪资支持。

纯相位型硅基液晶技术在全光通信、信息显示和照明领域的应用；

纯相位型硅基液晶器件的设计、封装和驱动开发；

基于硅基液晶技术的高端口波长选择开光（WSS/ROADM）的设计、封装、测试和全息优化；

全息自由空间光通信技术；

全息相干成像；

全息抬头显示系统设（HUD）计开发等