蔡鸣 副教授 生物医学工程

94993

蔡鸣

研究副教授

生物医学工程创新中心

E-mail: caim@sustc.edu.cn


研究方向

微光电子器件和模块,光学相干层析成像,光机电一体化医疗器械、医疗设备物联网、移动医疗、智能诊断


教育经历

1990.9 – 1995.7  北京清华大学 电子工程系 本科

1995.9 – 1997.7  北京清华大学 电子工程系 硕士

1997.8 – 2001.6美国加州理工大学(California Institute of Technology)电子工程系 博士


工作经历

2001.8 – 2010.1美国奥兰若(Oclaro Inc)公司 Staff Optical Engineer and Project Manager

2010.1 – 2015.5德国蔡司医疗公司(Zeiss Meditec Inc)Staff Systems Design Engineer

2015.6 – 2017.4美国雅培医疗光学(Abbott AMO)公司  Principal Systems and Software Engineer


项目经验

1. 在美国蔡司医疗公司(Zeiss Meditec)工作期间,负责眼科三维成像的谱域和扫频激光光学相关层析成像仪(OCT)的开发和临床研究工作。

2. 在美国艾维思公司(Avanex Corporation,2009年4月与bookham公司合并,改名为Oclaro,奥兰若公司),主导设计并开发了全套系列微型自由空间光开关产品,负责从概念到样机到生产的全部流程。参与设计并开发了各种用于构建智能光网络的新兴技术和关键产品,包括光学性能监控模块(OPM),交叉波长波分复用器(Interleaver),动态增益均衡器(DGE), 液晶的波长选择开关(WSS的),波长阻断器(WB)和波长选择开关(WSS),等等。

3. 在加州理工学院攻读博士期间,加入Kerry Vahala教授主持的微光子学研究室,开创了对光学微球谐振腔研究应用的新方向。首次利用锥形光纤耦合系统实现了对微球谐振腔的超低损耗耦合,并被广泛推广成为对微球谐振腔的研究主要方式并沿用至今。

4. 在清华大学学习期间,作为集成光电子学国家重点实验室的研究人员,参入了国家高技术研究发展计划(863计划)。开发了中国第一台超低噪声系数的EDFA,并在放大器谐振腔中引入激光振荡,实现了放大器中增益钳制的重要功能。研制开发的多种EDFA的功能性模块成功应用于DWDM和光孤子远程传输系统中,获得国家科技进步二等奖。



荣誉及获奖

1. 国家教委科学技术进步奖二等奖 (1997)


代表性论文和专利

论文

1. B. Goldhagen, J. Legarreta, A. Legarreta, E Ramenaden, K. Schaal, P. Stetson, M. Cai, M. Laron, G. Gregori, P. Rosenfeld, “Widefield En face Swept Source OCT Imaging of Geographic Atrophy, Retinal Pigment Epithelial Detachments, and Macular Hemorrhages”, Poster B0164, ARVO, Denver, 2015.

2. A. Legarreta, K. Schaal, J. Legarreta, Q Cheng, E Ramenaden, B. Goldhagen, P. Stetson, M. Cai, M. Laron, G. Gregori, P. Rosenfeld,, “Widefield En face Swept Source OCT Imaging of Dry Age-Related Macular Degeneration Subretinal Drusenoid”, Poster B0171, ARVO Denver, 2015

3. K. Schaal, A. Legarreta, G. Gregori,  J. Legarreta, Q Cheng, P. Stetson, M. Cai, M. Laron, M. Durbin, P. Rosenfeld, “Widefield En face OCT imaging of Subretinal Drusenoid Deposits”. Poster B0176, ARVO, Denver, 2015

4. H. Yuan, J. Xu, M. Cai, W. Zhu, and G. Barbarossa, “Dynamic Gain Equalizer Based on Liquid Crystal Technology”, Paper OME38, OFC'2000, Anaheim, California, March 6, 2005.

5. M. Cai and G. Barbarossa, “Adiabatic Taper Coupler as Modal Filter in Multimode Fiber Transmission”, Frontiers in Optics FWE2, Tucson, Arizona, October 16, 2005

6. M. Cai, O. Painter and K. Vahala, "Observation of critical coupling in a fiber taper to silica-microsphere whispering gallery mode system", Physics Review Letters, vol. 85, No. 1, pp. 74-77, 2000.

7. M. Cai and K. Vahala, "Highly efficient optical power transfer to whispering gallery modes using a symmetrical dual-coupling configuration", Optics Letters, vol. 25, No. 4, pp. 260-262, 2000.

8. M. Cai, O. Painter, K. Vahala and P.C. Sercel, "Fiber-coupled microsphere laser", Optics Letters, vol. 25, pp. 1430-1432, 2000.

9. M. Cai, and K. Vahala, “High efficient microsphere laser coupled using a hybrid fiber taper”, Optics Letters, vol. 26, pp. 884-886, 2001.

10. M. Cai, P.O. Hedekvist, A. Bhardwaj and K. Vahala, "5 Gbit/s BER performance on an all fiber-optic add/drop device based on a taper-resonator-taper structure", IEEE Photonics Technology Letters, vol. 12, No. 9, pp. 1177-1179, 2000.

11. M. Cai, G. Hunziker, and K. Vahala, "Fiber-optic add-drop device based on a silica microsphere-whispering gallery mode system", IEEE Photonics Technology Letters, vol. 11, No. 6, pp. 686-687, 1999.

12. M, Cai, X. Liu, J. Cui, P. Tang, and J. Peng, “Study on noise characteristic of gain-clamped erbium-doped fiber-ring lasing amplifier”, IEEE Photonics Technology Letters, vol. 9, no. 8, pp 1093-1095, 1997.

13. M. Cai, and K. Vahala, “Highly efficient hybrid fiber taper coupled microsphere laser”, paper CTuD1 (Invited), CLEO’2001, Baltimore, Maryland, May 6-11, 2001.

14. K. Vahala, M. Cai and O. Painter, "Fiber coupled high-Q microsphere resonators", paper DWA1 (Invited), DOMO’2000, Quebec City, Canada, June 18-22, 2000.

15. K. Vahala and M. Cai, "Ultra-high Q microsphere resonators", paper CMN3 (Invited), CLEO’2000, San Francisco, California, May 7-12, 2000. 

16. M. Cai, P.O. Hedekvist, K. Vahala, "5 Gbit/s transmission through an all-fiber-optic add/drop device based on a microsphere whispering-gallery-resonance system", Paper WN12, OFC'2000, Baltimore, Maryland, March 5-10, 2000.

17. M, Cai, X. Liu, J. Cui, P. Tang, D. Liu, and J. Peng, “Low noise performance of gain-clamped erbium-doped fiber amplifiers by loop lasing oscillation”, Photonics China’96, SPIE proceedings, vol. 2891, pp 224. 1996.


专利

1. Dual-wavelength hybrid waveguide coupler, US patent # 6,859,582

2. Micro-cavity laser, US patent # 6,741,628

3. Optical resonator microsphere sensor with altering Q-factor, US patent # 6,583,399

4. Resonator fiber bidirectional coupler, US patent # 6,580,851

5. Optical switch having angle tuning elements and multiple-fiber collimators, US patent # 7,603,006

6. Optical switch having angle tuning elements and multiple-fiber collimators, US patent # 7,286,730

7. Optical switch, US patent # 7,221,818

8. Apparatus, system and method for an adiabatic coupler for multi-mode fiber-optic transmission systems, US patent # 7,184,623