姓名

杨海宁

性别

出生年月

1986年12月

学位/学历

博士

职称

研究员

职务

显示中心副主任

导师类别

硕导/博导

招生方向

物理电子学、光学工程、电路系统

联系电话


电子邮箱

h.yang@seu.edu.cn 

教育背景:

2011.01-2014.11,英国剑桥大学,博士

2005.09-2009.07,东南大学,本科

工作经历:

2018.06-至今, 东南大学,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,东南大学,研究助理

主要研究领域与成就:

  • 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

  o 纯相位型硅基液晶器件的设计、封装和驱动开发

  o 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

  o 全息自由空间光通信技术

  o 全息抬头显示系统设(HUD)计开发


【诚招相关方向的博士、博士后】

代表论文:

  1. H. Yang and D. P. Chu, Phase flicker in liquid crystal on silicon devices, Journal of Physics: Photonics2, 032001(2020). 

  2. H. Yang and D. P. Chu, Transient Crosstalk in Holographic Optical Switching Based on Wavefront Encoding, Journal of Lightwave Technology38(7), 1618-1624(2020). 

  3. 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).

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

  5. H. Yang and D. P. Chu, Digital phase-only liquid crystal on a silicon device with enhanced optical efficiency, OSA Continuum2(8), 2445-2459 (2019)

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

  7. 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 NetworksOptical Fiber Communication Conference, Th2A.43 (2018).

  8. H. Yang, B. Robertson, P. Wilkinson, and D. P. Chu, Low-cost CDC ROADM Architecture Based on Stacked Wavelength Selective SwitchesIEEE/OSA Journal of Optical Communications and Networking9(5), 375-384, (2017). 

  9. 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 NetworksOptical Fiber Communication Conference, W1I.5 (2017).

  10. 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 switchesOptics Express24(11), 12240-12253 (2014).

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

  12. 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 Technology31(23), 3822-3829(2013).

  13. 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 Engineering51(7), 916-920 (2013).

  14. 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).


PCT专利

  1. Optical Switching SystemsH. Yang, B. Robertson, P. Wilkinson, and D. P. Chu (2019) US20200021383 (A1).

  2. Optical Switching UnitH. Yang, B. Robertson, D. P. Chu (2018) WO2019234448

  3. Multiple wavelength band optical switching unit, H. Yang, B. Robertson, D. P. Chu (2018) WO2019243809

  4. Polarising DisplayH. Yang and D. Chu (2018) WO2019150129 (A1)

  5. A space-division multiplexed reconfigurable, wavelength selective switchH. Yang and D. Chu (2016). US20200073054(A1)

  6. Optical Switching SystemsH. Yang, B. Robertson, P. Wilkinson, and D. P. Chu (2015) US10491322 (B2)

  7. Optical SystemsH. Yang, B. Robertson, and D. P. Chu (2015) US10587936 (B2)

  8. Space phase modulator and method for fabricating sameH. Yang, D. P. Chu and L. Zong (2015) US2018046016 (A1)

  9. Polarisation-independent, optical multiplexing and demultiplexing systems based on ferroelectric liquid crystal phase modulators for spatial mode division multiplexing and demultiplexingH. Yang and D. P. Chu (2014) US2017371217 (A1)