Book chapters:

  1. Angle Flores and Michael R. Wang, ¡°Soft Lithographic Fabrication of Micro Optic and Guided Wave Devices,¡± Book Chapter, In-Tech, Invited, submitted on Sept. 18, 2009 (accepted for publication).
  2. Michael R. Wang, ¡°Demultiplexing Equipment (Section Title),¡± Wiley Encyclopedia of Electrical and Electronics Engineering, John Wiley and Sons, Invited Author, Vol.5, 165-174 (1999).


Selected Journal Papers:

  1. Meixiao Shen, Michael R. Wang, Jianhua Wang, Yimin Yuan, Feng Chen, ¡°Entire Contact Lens Imaged In Vivo and In Vitro With Spectral Domain Optical Coherence Tomography,¡± Eye and Contact Lens, (to be accepted with revision) (2009).
  2. Bing Chen, Michael R. Wang, and Jame J. Yang, ¡°Dynamic Reconfigurable Multispectral Imaging Microscope,¡± Optical Engineering, submitted on Sept. 14 (2009).
  3. Bing Chen, Michael R. Wang, and Jame J. Yang, ¡°Agile Dual-Channel Spectral Imaging with Spectral Zooming,¡± Applied Optics, 47(23), 4221-4226 (2008).
  4. Angel Flores, Sangyup Song, Sarfaraz Baig, and Michael R. Wang, ¡°Vacuum Assisted Microfluidic Technique for Fabrication of Guided Wave Devices, ¡± IEEE Photonics Technology Letters, 20(14), 1246-1248 (2008).
  5. Angel Flores, Sangyup Song, Jame J. Yang, Zhiqiang Liu, and Michael R. Wang, ¡°High Speed Optical Interconnect Coupler Based on Soft Lithography Ribbons,¡± IEEE Journal of Lightwave Technology, 26(13), 1956-1963 (2008).
  6. Han-Yong Ng, Michael R. Wang, Daqun Li, Xuan Wang, Jose Martinez, Roberto R. Panepucci, and Kachesh Pathak, ¡°4x4 Wavelength Reconfigurable Photonic Switch Based on Thermally Tuned Silicon Microring Resonators,¡± Optical Engineering, 47(4), 044601-1 to -8, (2008).
  7. Pengfei Wu, Zhiqiang Liu, Jame J. Yang, Angel Flores, and Michael R. Wang, ¡°Wavelength-multiplexed Submicron Holograms for Disk-compatible Data Storage,¡± Optics Express, 15(26), 17798-17804 (2007).
  8. Han-Yong Ng, Michael R. Wang, Daqun Li, Xuan Wang, Jose Martinez, Roberto R. Panepucci, and Kachesh Pathak, ¡°1x4 Wavelength Reconfigurable Photonic Switch Using Thermally Tuned Microring Resonators Fabricated on Silicon Substrate,¡± IEEE Photonic Technology Letters, 19(9), 704-706 (2007).
  9. Bing Chen, Michael R. Wang, Zhiqiang Liu, and Jame J. Yang, ¡°Dynamic Spectral Imaging with Spectral Zooming Capability,¡± Optics Letters, 32(11), 1518-1520 (2007).
  10. Jame J. Yang, Angel Flores, Michael R. Wang, ¡°Array Waveguide Evanescent Ribbon Coupler for Card-to-Backplane Optical Interconnects,¡± Optics Letters, 32(1), 14-16 (2007)
  11. Zhiqiang Liu, Namkhun Srisanit, Xianjun Ke, Pengfei Wu, Sangyup Song, Jame J. Yang, and Michael R. Wang, ¡°An azobenzene functionalized polymer for laser direct writing waveguide fabrication,¡± Optics Communications, 273, 94-98 (2007)
  12. Zhiqiang Liu, Angel Flores, Michael R. Wang, and Jame J. Yang, ¡°Diffractive Infrared Lens with Extended Depth of Focus,¡± Optical Engineering, 46(1), pp.018002-1 to 018002-9 (2007)
  13. Xianjun Ke, Xingzhong Yan, Sangyup Song, Daqun Li, Jame J. Yang, and Michael R. Wang, ¡°Synthesis and characterization of a photochromic sol-gel material functionalized with azo dye¡± Optical Materials, 29, 1375-1380 (2007).
  14. Jame J. Yang and Michael R. Wang, ¡°White Light Micro Grating Multiplexing for High Density Data Storage,¡± Optics Letters, 31, 1304-1306 (2006)
  15. Xianjun Ke, Michael R. Wang, Daqun Li, ¡°All-Optical Controlled Variable Optical Attenuator Using Photochromic Sol Gel Material,¡± IEEE Photonics Technology Letters, 18, 1025-1027 (2006)
  16. Daqun Li and Michael R. Wang, ¡°All-optical controllable 4 ¡Á 4 photonic switch matrix with scale-up capability for large port-count optical cross connects¡±, Optical Engineering, 45(2), 025002-1 ¨C 025002-6, Feb. (2006)
  17. Namkhun Srisanit, Zhiqiang Liu, Xianjun Ke, and Michael R. Wang, ¡°Laser Writing Correction of Polymer Waveguide Fanouts¡±, Optics Communications, 244, 171-179 (2005)
  18. Angel Flores, Michael R. Wang, and Jame J. Yang, ¡°Achromatic Hybrid Refractive-Diffractive Lens with Extended Depth of Focus,¡± Applied Optics, 43(30), 5618-5630 (2004)
  19. David D. Li, Jame J. Yang, Ralph DeMasi, Xianjun Ke, Michael R. Wang, ¡°Holographic data storage on azobenzene photopolymer film using nanosecond laser pulses,¡± Optics Communications, 235, 275-279 (2004)
  20. Xiongfei Huang, Shizhou Zhong, Xingzhong Yan, Xianjun Ke, Namkhun Srisanit, Michael R. Wang, ¡°The Synthesis and Nonlinear Optical Property of Carbazole-Azo Binary Compounds,¡± Synthetic Metals, 140, 79-86 (2004)
  21. Jame J. Yang and Michael R. Wang, ¡°Analysis and Optimization on Single Zone Binary Flattop Beam Shaper,¡± Optical Engineering, 42(11), 3106-3113 (2003)
  22. Namkhun Srisanit and Michael R. Wang, ¡°Low Loss Channel Waveguide on High Energy Beam Sensitive Glass,¡± IEEE Photonics Technology Letters, 15(5), 703-705 (2003)
  23. Xianjun Ke, Xingzhong Yan, Namkhum Srisanit, Michael R. Wang, Jianwen Yang, Xiongfei Huang, and Shizhou Zhong, ¡°Holographic Storage in Carbazole-Azo Binary Compound Doped Polymer,¡± Optics Communications, 217, 69-74 (2003)
  24. Jianwen Yang and Michael R. Wang, ¡°Uniformizing Field Distribution Along Optical Axis for Volume Holographic Data Storage,¡± Optics Communications, 192, 19-26 (2001)
  25. Michael R. Wang, Changyuan Yu, and Alberto J. Varela, ¡°Efficient Pseudo-Nondiffracting Beam Shaping Using a Quasicontinuous-Phase Diffractive Element,¡± Optical Engineering, 40(4), 517-524 (2001)
  26. Changyuan Yu, Michael R. Wang, Alberto J. Varela, and Bing Chen, ¡°High-Density Non-Diffracting Beam Array for Optical Interconnection,¡± Optics Communications, 177, 369-376 (2000)
  27. Michael R. Wang and Xu Guang Huang, ¡°Sub-Wavelength Resolvable Focused Non-Gaussian Beam Shaped With A Binary Diffractive Optical Element,¡± Applied Optics, 38(11), 2171-2176 (1999)
  28. Xu Guang Huang, Michael R. Wang, and Changyuan Yu, ¡°High-Efficiency Flat-Top Beam Shaper Fabricated by A Non-Lithographic Technique,¡± Optical Engineering, 38(2), 208-213 (1999)
  29. Xu Guang Huang and Michael R. Wang, ¡°Analytical Design of Kerr-Lens Mode Locking of Compact Solid-State Lasers,¡± Optics Communications, 158, 322-330 (1998)
  30. Michael R. Wang, ¡°Multi-Wavelength Fiber Optic Communication,¡± IEEE Communications Magazine, Guest Editorial, 36(12), 26 (1998)
  31. Michael R. Wang and Heng Su, ¡°Laser Direct-Write Gray-Level Mask and One-Step Etching for Diffractive Microlens Fabrication,¡± Applied Optics, 37(32), 7568-7576 (1998)
  32. Michael R. Wang and Heng Su, ¡°Multilevel Diffractive Microlens Fabrication by One-Step Laser-Assisted Chemical Etching upon High-Energy-Beam Sensitive Glass,¡± Optics Letters, 23(11), 876-878 (1998)
  33. Xu Guang Huang and Michael R. Wang, ¡°A Novel Quasi-Phase-Matching Frequency Doubling Technique,¡± Optics Communications, 150(1-6), 235-238 (1998)
  34. Xu Guang Huang, Michael R. Wang, Yuen Tsui, and Chuck Wu, ¡°Characterization of Erasable Inorganic Photochromic Media for Optical Disk Data Storage,¡± Journal of Applied Physics, 83(7), 3795-3799 (1998)
  35. Michael R. Wang, ¡°Thin Grating Sequential Diffractions for the Analysis of Bragg Diffractions by Superimposed Transmission Phase Gratings,¡± Optics Communications, 145, 195-202 (1998)
  36. Xu Guang Huang, Feiran Huang, Wing-Kee Lee, and Michael R. Wang, ¡°Cavity Design of Compact Kerr-Lens Mode-Locking Laser,¡± Optics Communications, 142, 249-252 (1997)
  37. Michael R. Wang, ¡°Analysis and Observation of Finite Beam Bragg Diffraction by A Thick Planar Phase Grating,¡± Applied Optics, 35(4), 582-592 (1996)
  38. Michael R. Wang, Guoda Xu, Freddie Lin, and Tomasz Jannson, ¡°Single- mode/Multimode Waveguide Electro-optic Grating Coupler Modulator,¡± Applied Physics Letters, 66(20), 2628-2630 (1995)
  39. M. R. Wang and F. Lin, ¡°Design of Achromatic Holographic Grating Couplers for Substrate and Backplane Optical Interconnects,¡± Optics & Laser Technology, 26(4), 259-264 (1994) (an invited submission for the special edition on optical computing)
  40. Michael R. Wang, Tomasz Jannson, and G. J. Sonek, ¡°Substrate Wavelength Demultiplexing Optical Interconnects Based on Superimposed Holographic Gratings and Three-Dimensional Bragg Diffraction,¡± Optics Letters, 18(23), 2068-2070 (1993)
  41. Ray T. Chen, Huey Lu, Daniel Robinson, Michael Wang, Gajendra Savant, and Tomasz Jannson, ¡°Guided Wave Planar Interconnections Using Highly Multiplexed Polymer Waveguide Holograms,¡± Journal of Lightwave Technology, 10(7), 888-897 (1992)
  42. R. T. Chen, D. Robinson, H. Lu, M. R. Wang, T. Jannson, and R. Baumbick, ¡°Reconfigurable Optical Interconnection Network for Multimode Optical Fiber Sensor Arrays,¡± Optical Engineering, 31(5), 1098-1106 (1992)
  43. M. R. Wang, G. J. Sonek, R. T. Chen, and T. Jannson, ¡°Large Fanout Optical Interconnects Using Thick Holographic Gratings and Substrate Wave Propagation,¡± Applied Optics, 31(2) 236-249 (1992)
  44. M. R. Wang, G. J. Sonek, R. T. Chen, and T. Jannson, ¡°Five-Channel Polymer Waveguide Wavelength Division Demultiplexer for the Near Infrared,¡± IEEE Photonic Technology Letters, 3(1), 36-38 (1991)
  45. Ray T. Chen, Michael R. Wang, G. J. Sonek, and Tomasz Jannson, ¡°Optical Interconnection Using Polymer Microstructure Waveguides,¡± Optical Engineering, 30(5), 622-628 (1991)
  46. Ray T. Chen, Michael R. Wang, and Tomasz Jannson, ¡°Intra-Plane Guided Wave Massive Fanout Optical Interconnects,¡± Applied Physics Letters, 57(20), 2071-2073 (1990)
  47. Michael R. Wang, Ray T. Chen, G. J. Sonek, and Tomasz Jannson, ¡°Wavelength Division Multiplexing and Demultiplexing on Locally Sensitized Single-Mode Polymer Microstructure Waveguides,¡± Optics Letters, 15(7), 363-365 (1990)
  48. Ray T. Chen, Michael R. Wang, and Tomasz Jannson, ¡°Polymer Microstructure Waveguides on Alumina and Beryllium Oxide Substrates for Optical Interconnection,¡± Applied Physics Letters, 56(8), 709-711 (1990)
  49. Michael R. Wang and Freddie Lin, ¡°Holographic Board-to-Board Interconnects,¡± Photonics Spectra, 26(8), 75-76 (1992)


Conference Papers and Presentations:

  1. Daqun Li, Jame J. Yang, and Michael R. Wang, ¡°Wide Field-of-View Target Tracking Sensor, ¡± Proc. SPIE, 7307, 73070F-1 to 73070F-8 (2009).
  2. Bing Chen, Jame J. Yang, and Michael R. Wang, ¡°Dynamic Multispectral Imaging Remote Sensor with Spectral Zooming Capability,¡± Proc. SPIE, 7315, 73150U-1 to 73150U-7 (2009).
  3. Bing Chen, Jame J. Yang, and Michael R. Wang, ¡°Dynamic Reconfigurable Spectral Imaging Microscopy, ¡± Proc. SPIE, 7182, 71821D-1 to 71821D-8 (2009).
  4. Sarfaraz Baig, Bing Chen, Angel Flores, Sangyup Song, and Michael R. Wang, ¡°Channel Waveguide Fabrication Via Microtransfer Molding and Microfluidic Technique,¡± Proc. SPIE, 7221, 72210L-1 to 72210L-9 (2009).
  5. Jianfeng Xu, Bing Chen, Sarfaraz Baig, and Michael R. Wang, ¡°Single- Mode Light Source Fabrication Based on Colloidal Quantum Dots,¡± Proc. SPIE, 7224, 722415-1 to 722415-7 (2009).
  6. Pengfei Wu, Zhifeng Ren, and Michael R. Wang, ¡°Backward Scattering Effect of Alligned Carbon Nanotube Arrays,¡± Proc. SPIE, 7223, 72231A-1 to 72231A-8 (2009).
  7. Sangyup Song, Sarfaraz Baig, Bing Chen, and Michael R. Wang, ¡°Novel poly(p-phenylenevinylene) erivatives for OLED display,¡± SPIE Photonics West, Presentation 7231-50, Jan. 29, (2009).
  8. Jame J. Yang, and Michael R. Wang, ¡°Spectrally Agile Multispectral Imaging Sensor,ITI2008 (University & Industry Technical Interchange Review Meeting),¡± The Canyons, Utah, Dec. 2-4, (2008).
  9. Michael R. Wang, ¡°Foveated Imaging and Spectral Discrimination Sensor,¡± Missile Defense Submit, Organized by IDGA (Institute for Defense and Government Advancement), Washington DC, Building of FDIC, Sept. 22-23,(2008), (Invited).
  10. Sarfaraz Baig, Jianfeng Xu, Pengfei Wu, Bing Chen, and Michael R. Wang, ¡°Formation of Visible Narrow-Band Light Sources Using Quantum Dots,¡± Proc. SPIE, 7058, p. 70580U-1 to 70580U-7, (2008).
  11. Bing Chen, Jame J. Yang, and Michael R. Wang, ¡°Dual-Channels Spectral Imaging With Spectral Zooming Capability,¡± Proc. SPIE, 7086, p. 70860M-1 to 70860M-8, (2008).
  12. Pengfei Wu, Zhiqiang Liu, Jame J. Yang, Angel Flores, and Michael R. Wang, ¡°Wavelength Multiplexed Holographic Data Storage with Diffraction Limited Pit Size,¡± OSA Annual Meeting, FTHM6, pp. 141, San Jose, CA, Sept. 20, (2007).
  13. Mingyoung Choi, Sangyup Song, Bing Chen, and Michael R. Wang, ¡°Novel Polymeric Light Emitting Diode Having Conjugation Control Moiety,¡± submitted to Topical Meeting on Organic Materials and Devices for Display and Energy Conversion, (2007).
  14. Sangyup Song, Angel Flores, Sarfaraz Baig, and Michael R. Wang, ¡°Novel Vacuum Assisted Microfluidic Technique for Fabrication of Guided Wave Devices,¡± submitted to OSA Annual Meeting, (2007).
  15. Pengfei Wu, Sarfaraz Baig, and Michael R. Wang, ¡°All-Optical Switching Between Two-Cladding of a Non-linear Optical Layer,¡± submitted to OSA Annual Meeting, (2007).
  16. Bing Chen, Jame J. Yang, Zhiqiang Liu, and Michael R. Wang, ¡°Dynamic Spectral Imaging with Spectral Zooming,¡± submitted to OSA Annual Meeting, (2007).
  17. Michael R. Wang, Han-Yong Ng, Daqun Li, Xuan Wang, Jose Martinez, and Roberto Panepucci, ¡°Wavelength Reconfigurable Photonic Switching Using Thermally Tuned Micro-Ring Resonators Fabricated on Silicon Substrate,¡± Proc. SPIE, 6645, pp.664501-1 to 664501-7, (2007).
  18. Minyoung Choi, Sangyup Song, Zhiqiang Liu, Bing Chen, Michael R. Wang, ¡°Emitting Color Controllable Novel PPV Polymers,¡± Optical Fabrication and Testing Topical Meeting or Organic Photonics and Electronics Topical Meeting 2006, Rochester, NY, OPMB4, pp.83, Oct. 9, (2006).
  19. Zhiqiang Liu, Namkhun Srisanit, Pengfei Wu, Michael R. Wang, ¡°Laser Writable Azobenzene Functionalized Polymer for Waveguide Fabrication,¡± OSA Annual Meeting 2006, Rochester, NY, FWM2, pp.142, Oct. 11, 2006.
  20. Angel Flores, Jame J. Yang, Michael R. Wang, ¡°10 Gb/s Optical Link via Array Waveguide Evanescent Coupling,¡± OSA Annual Meeting 2006, Rochester, NY, FWU5, pp.150, Oct. 11, (2006).
  21. Han-Yong Ng, Michael R. Wang, Xuan Wang, Jose Martinez, Roberto R. Panepucci, Daqun Li, ¡°8¡Á8 Wavelength Reconfigurable Photonic Switch Using Thermally Tuned Micro-Ring Resonators Fabricated on Silicon Substrate,¡± OSA Annual Meeting 2006, Rochester, NY, FWM6, pp.146, Oct. 11, (2006).
  22. Pengfei Wu, Jame J. Yang, Michael R. Wang, ¡°Submicron Multiplexed Holograms for High Density Disk-Compatible Data Storage,¡± OSA Annual Meeting 2006, Rochester, NY, FWI2, pp.126, Oct. 11, (2006).
  23. Zhiqiang Liu, Jame J. Yang, Michael R. Wang, ¡°Performance Tolerance of Single Zone Flat-Top Beam Shapers,¡± OSA Annual Meeting 2006, Rochester, NY, JWD12, pp.134, Oct. 11, (2006).
  24. Michael R. Wang, ¡°High Speed Wide Field of View Small Target Tracking Sensor,¡± Firepower 2006, IDGA (Institute for Defense and Government Advancement), Silver Spring, MD, Sept. 25-27, pp.3, (2006) (invited).
  25. Sangyup Song, Zhiqiang Liu, Bing Chen, Min Young Choi, and Michael R. Wang, ¡°White-Light-Emitting OLED Display Based on Partially Conjugated Si-PPV Copolymer,¡± Proceedings of SPIE, Vol. 6225B-47, pp.18. (Orlando, April 21, 2006)
  26. N. Srisanit and M. R. Wang, "Experiments On Non-Magneto-Optic Waveguide Isolator," The 4th International Conference on Optical Communications and Networks (ICOCN2005), Paper no. 234, pp. 25-28, Bangkok, Thailand, December 14-16, (2005).
  27. Sangyup Song, Angel Flores, Jame J. Yang, Michael R. Wang, ¡°Fabrication of Multi-mode Polymer Waveguide by Using Soft Lithographic Technique,¡± OSA Annual Meeting 2005, Tucson, Arizona, FThQ7, pp.127, Oct. 20, (2005).
  28. Xianjun Ke, Michael R. Wang, Sangyup Song, Daqun Li, and Jame J. Yang, ¡°All-Optical Controlled Mach-Zehnder Based Variable Optical Attenuator Using Photochromic Sol Gel Material,¡± OSA Annual Meeting 2005, Tucson, Arizona, FThQ3, pp.123, Oct. 20, (2005).
  29. Xianjun Ke, Michael R. Wang, Sangyup Song, Daqun Li, and Jame J. Yang, ¡°All-Optical Controlled Tunable Optical Filter Using Photochromic Sol Gel Material,¡± OSA Annual Meeting 2005, Tucson, Arizona, FThY3, pp.133, Oct. 20, (2005).
  30. Bing Chen, Zhiqiang Liu, Angel Flores, Sangyup Song, Michael R. Wang, ¡°High-Density Stacked Waveguide Imaging Ribbon,¡± OSA Annual Meeting 2005, Tucson, Arizona, FTuB7, pp.66, Oct. 18, (2005).
  31. Angel Flores, Sangyup Song, Jame J. Yang, Michael R. Wang, ¡°Array Waveguide Evanescent Coupler for Flexible Optical Interconnect,¡± OSA Annual Meeting 2005, Tucson, Arizona, FTuW4, pp.88, Oct. 18, 2005.
  32. Zhiqiang Liu, Angel Flores, Michael R. Wang, Jame J. Yang, ¡°Design of IR Lens with Extended Depth of Focus,¡± OSA Annual Meeting 2005, Tucson, Arizona, FWN4, pp.109, Oct. 19, (2005).
  33. Jame J. Yang and Michael R. Wang, ¡°Novel Coded High Density Optical Disk Data Storage,¡± OSA Annual Meeting 2005, Tucson, Arizona, FTuY2, pp.84, Oct. 18, (2005).
  34. Daqun Li and Michael R. Wang, ¡°All Optical Controlled Large Scale Photonic Switch Matrix with Immunity to Electromagnetic Interference¡±, SPIE Defense & Security Symposium 2005, Vol. 5814-02, p. 9-15.
  35. Zhiqiang Liu, Angel Flores, Michael R. Wang, Jame J. Yang, ¡°Infrared Imaging Lens with Extended Depth of Focus¡±, SPIE Defense & Security Symposium 2005, Vol. 5783-89, p. 841-848.
  36. Jame J. Yang, Jian Wu, Michael R. Wang, ¡°Array Waveguide Evanescent Coupler for Optical Interconnect,¡± Proceedings of SPIE, Vol. 5731-12, p. 79-86, San Jose, (2005).
  37. Zhiqiang Liu, Namkhun Srisanit, Xianjun Ke, and Michael R. Wang, ¡°Non-Lithographic Fabrication of Polymer Reconfigurable Waveguide Fanout,¡± Proceedings of SPIE, Vol. 5728-36, p. 246-253, San Jose, (2005).
  38. Namkhun Srisanit and Michael R. Wang, ¡°Laser Direct Writing of Output-Adjustable Polymer Waveguides,¡± 27th Electrical Engineering Conference (EECON27), paper CM 26, pp. 409-412, Thailand, (2004).
  39. Michael R. Wang, Namkhun Srisanit, and Jame J. Yang, ¡°Laser Writing of Polymeric Channel Waveguides for Optical Interconnect Packaging,¡± Proceedings of SPIE, Photonics West, Vol.5358, 127-134, San Jose, (2004).
  40. Angel Flores, Michael R. Wang, Jame J. Yang, and David D. Li, ¡°Hybrid Imaging Device with Extended Depth of Focus,¡± Micro and Nano-Optics, Optics in the Southeast 2003, SE 05-A2, Orlando, Nov. 13, (2003).
  41. Namkhun Srisanit, Angel Flores, Michael R. Wang, Jame J. Yang, and David D. Li, ¡°Laser Direct Writing of 1 x N Polymer Waveguide Fanout,¡± OSA Annual Meeting, THGG7, Oct. 9, 2003, Tucson, Arizona.
  42. Xianjun Ke, Michael R. Wang, David D. Li, and Jame J. Yang, ¡°2 x 2 Grating Assisted All-Optical Waveguide Switch,¡± OSA Annual Meeting, WY2, Oct. 8, 2003, Tucson, Arizona.
  43. David D. Li, Ralph DeMasi, Jame J. Yang, Qi Li, Xianjun Ke, Michael R. Wang, ¡°Dye-Doped Polymer Film for Holographic Storage,¡± OSA Annual Meeting, WS3, Oct. 8, 2003, Tucson, Arizona.
  44. Ralph DeMasi, Jame J. Yang, and Michael R. Wang, ¡°Holographic Data Storage Using Photochromic Materials,¡± NSF Grantee¡¯s Conference, Birmingham, Alabama, Jan. 6 - Jan. 9, (2003).
  45. Xianjun Ke, Nankhun Srisanit, Michael R. Wang, and Jame J. Yang, ¡°Rapid prototyping of waveguide devices using laser writable polymer material,¡± Optics in the Southeast (OISE) 2002, p.49, OSA Topical Meeting, Huntsville, Alabama, October 24, (2002).
  46. Jame J. Yang and Michael R. Wang, ¡°Analysis and optimization on single zone binary beam shaper,¡± OSA Annual Meeting, WN4, Oct. 2, 2002, Orlando, Florida.
  47. Ralph DeMasi, Jame J. Yang, and Michael R. Wang, ¡°Tolerance reduction in a digital holographic data storage system,¡± OSA Annual Meeting, TuP2, Oct. 1, 2002, Orlando, Florida.
  48. Xianjun Ke, Michael R. Wang, and Jame J. Yang, ¡°Integration of BeamProp Design Software and Laser Writable Material for Rapid Waveguide Device Prototyping,¡± OSA Annual Meeting, MK13, Sept. 30, 2002, Orlando, Florida.
  49. Xianjun Ke, Xingzhong Yan, Michael Wang, Jame J. Yang, Xiongfei Huang, and Shizhou Zhong, ¡°Holographic Storage in Carbazole-azo Binary Compound Doped Polymer by Two-Photon Absorption,¡± OSA Annual Meeting, TuP6, Oct. 1, 2002, Orlando, Florida.
  50. Namkhun Srisanit, and Michael R. Wang, ¡°Laser Direct Write Low Loss Polymer Waveguide,¡± OSA Annual Meeting, TuFF4, Oct. 1, 2002, Orlando, Florida.
  51. Namkhun Srisanit and Michael R. Wang, ¡°Realization of Channel Waveguides on High Energy Beam Sensitive Glass,¡± OSA Annual Meeting, TuL48, Oct. 1, 2002, Orlando, Florida.
  52. Namkhun Srisanit, Xingzhong Yan, Xianjun Ke, Jianwen Yang, and Michael R. Wang, ¡°Laser Writing of Low-Loss Polymer Channel Waveguide,¡± CLEO 2002, TuF62, Long Beach, California, May 20-24.
  53. Ralph DeMasi, Michael R. Wang, and Jianwen Yang, ¡°Holographic Data Storage Using Azobenzene Photopolymer,¡± NSF Grantee¡¯s Conference, San Juan, Puerto Rico, Jan. 7 - Jan. 10, (2002).
  54. Michael R. Wang, Jianwen Yang, Xingzhong Yan, Ralph DeMasi, ¡°Holographic Data Storage Using Azobenzene Polymer,¡± Proc. SPIE, Vol. 4512, June 4-6, (2001). (Invited)
  55. Changyuan Yu, Michael R. Wang, Xu Guang Huang, and Alberto J. Varela, ¡°High-Efficiency Nondiffracting Beam Shaping Using A Diffractive Element,¡± 1999 OSA Annual Meeting, Santa Clara, CA, TuFF6, p.81 (1999)
  56. Changyuan Yu, Michael R. Wang, and Alberto J. Varela, ¡°High Density Nondiffracting Beam Array for Optical Interconnection,¡± 1999 OSA Annual Meeting, Santa Clara, CA, TuQQ4, p.85 (1999)
  57. Michael R. Wang and Namkhun Srisanit, ¡°Analysis of Superimposed Phase-Grating Three-Dimensional Bragg Diffraction Using Thin-Grating Sequential Diffraction Technique,¡± 1999 OSA Annual Meeting, Santa Clara, CA, WLL14, p.116 (1999)
  58. Michael R. Wang and Heng Su, ¡°Single-Step Etching Fabrication of Diffractive Microlens on High-Energy-Beam Sensitive Glass,¡± Summer Topical Meetings on Diffractive Optics and Micro-Optics, Hawaii, DWD5, p.240-242 (1998)
  59. Xu Guang Huang and Michael R. Wang, ¡°One-Step Fabrication of A High-Efficiency Flat-Top Beam Shaper,¡± Summer Topical Meetings on Diffractive Optics and Micro-Optics, Hawaii, JThC4, p.285-287 (1998)
  60. Michael R. Wang, ¡°Design of Holographic Optical Beam Splitters Based on Thin Grating Sequential Diffraction Technique,¡± Summer Topical Meetings on Diffractive Optics and Micro-Optics, Hawaii, JWC5, p.225-227 (1998)
  61. Heng Su and Michael R. Wang, ¡°Laser Direct-Write Optical Grating Lenses and Lenslet Arrays on Glass for Optical Interconnect Applications,¡± Proceedings of SPIE, Vol. 2891, 82-87 (1996)
  62. Michael R. Wang, ¡°Analysis of Bragg Diffractions by Superimposed Transmission Phase Gratings for Optical Computing and Interconnection,¡± Proceedings of SPIE, Vol. 2891, 130-138 (1996)
  63. Michael R. Wang, Guoda Xu, Freddie Lin, and Tomasz Jannson, ¡°Waveguide Electrooptic Grating Coupler Modulator,¡± OSA Annual Meeting, Oregon, Sept. (1995)
  64. Jay Hirsh, Viken Kalindjian, Freddie Lin, Michael Wang, Guoda Xu, and Tomasz Jannson, ¡°High Channel Density Broadband Wavelength Division Multiplexer Based on Periodic Grating Structures,¡± Proceedings of SPIE, Vol. 2532 (1995)
  65. Michael R. Wang and Guoda Xu, ¡°Waveguide Electrooptic Grating Coupler Modulators Operable Under Both Single-Mode and Multimode Conditions,¡± Proceedings of SPIE, Vol. 2291, 308-315 (1994)
  66. Guoda Xu, Michael R. Wang, and Freddie Lin, ¡°Integrated Optical Mach- Zehnder Modulator Array for Optical Board-to-Board Interconnections,¡± Proceedings of SPIE, Vol. 2291, 341-350 (1994)
  67. Michael R. Wang and Freddie Lin, ¡°Design of Achromatic Holographic Grating Couplers for Backplane Optical Interconnects,¡± Topical Meeting on Diffractive Optics: Design, Fabrication and Applications, Rochester, DMD2 (1994)
  68. Michael R. Wang, ¡°Observation and Numerical Analysis of Finite Beam Bragg Diffraction by a Phase Grating,¡± Topical Meeting on Diffractive Optics: Design, Fabrication and Applications, Rochester, DMA5 (1994)
  69. Michael R. Wang, Tomasz Jannson, and G. J. Sonek, ¡°Multi-Wavelength Substrate Interconnects for Demultiplexing Applications,¡± 1993 OSA Annual Meeting, Toronto, Ontario, Canada, MP3, 19 (1993)
  70. Michael R. Wang, Tomasz Jannson, and Vladimir Katsman, ¡°A Novel Coding Technique for the Implementation of An Electrooptic Analog-to-Digital Converter,¡± Proceedings of SPIE, Vol.1849, 242-249 (1993)
  71. Cong Nguyen, Freddie Lin, and Michael R. Wang, ¡°Compact Three- Dimensional Wafer Packaging Using Waveguide Holographic Optical Elements,¡± Proceedings of SPIE, Vol.1773, 284-289 (1992)
  72. M. R. Wang and G. J. Sonek, ¡°Analysis of Finite Beam Contributions to Waveguide Wavelength Division Demultiplexer Design,¡± Conference on Integrated Photonics Research, New Orleans, TuB5, 136-137 (1992)
  73. Michael R. Wang and Tomasz Jannson, ¡°Electrooptic Multiwavelength Analog-to-Digital Converters and Modulators for Optical Computing,¡± 1991 OSA Annual Meeting, San Jose, California, WD3, 108 (1991)
  74. Tomasz Jannson, Michael Wang, Zongjian Sun, and Eva Strzelecki, ¡°Broadband Single-Mode Coupler,¡± 1991 OSA Annual Meeting, San Jose, California, MY5, 26 (1991)
  75. Ray T. Chen, Huey Lu, Dan Robinson, and Michael R. Wang, ¡°Ten Channel Single-Mode Wavelength Division Demultiplexer in Near IR,¡± Proceedings of SPIE, Vol.1583, 135-142 (1991)
  76. M. R. Wang, G. J. Sonek, H. T. Lu, R. T. Chen, and T. Jannson, ¡°A 1-to-30 Fanout Optical Interconnect for Planar Integration Applications,¡± Conference on Integrated Photonic Research, Monterey, California, TuE4, 105 (1991)
  77. R. T. Chen, M. R. Wang, H. Lu, and D. Robinson, ¡°High Transmission Bandwidth Graded Index Polymer Waveguide,¡± Conference on Graded-Index Optical Systems, Monterey, California, MB5, 43-46 (1991)
  78. Ray T. Chen, Michael R. Wang, Tomasz Jannson, and Robert Baumbick, ¡°Multiple-Mode Reconfigurable Electro-Optic Switching Network for Optical Fiber Sensor Array,¡± Proceedings of SPIE, Vol.1374, 223-236 (1990)
  79. M. R. Wang, R. T. Chen, G. J. Sonek, T. Jannson, and H. T. Lu, ¡°Wavelength Division Demultiplexing in the Near Infrared Using Holographically Processed Polymer Microstructure Waveguides,¡± Proceedings of SPIE, Vol.1347, 560-565 (1990)
  80. Ray T. Chen, Michael R. Wang, Tomasz Jannson, and Robert Baumbick, ¡°Reconfigurable Switching Network for Multimode Fiber Arrays,¡± Proceedings of SPIE, Vol.1338, 69-81 (1990)
  81. Ray. T. Chen, Michael R. Wang, G. J. Sonek, and Tomasz Jannson, ¡°Polymer Microstructure Waveguides on Various Substrates for Optical Interconnection and Communication,¡± Proceedings of SPIE, Vol.1213, 100-110 (1990)
  82. Ray. T. Chen, Michael R. Wang, Freddie Lin, and Tomasz Jannson, "Thick Phase Hologram for Optical Clock Distribution Application on Wafer Scale Integrated Circuits," Proceedings of SPIE, Vol.1213, 27-31 (1990)
  83. Michael R. Wang, Ray T. Chen, G. J. Sonek, and Tomasz Jannson, "Four-Channel Wavelength Demultiplexer Using Polymer Microstructure Waveguides," Conference on Integrated Photonic Research, Hilton Head, South Carolina, TuD10, (1990)
  84. Ray T. Chen and Michael R. Wang, "Integrated TE to TM Depolarization Modulator on LiNbO3 Proton-Exchanged Channel Waveguides," Proceedings of SPIE, Vol.1166, 493-502 (1989)

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