Publications

About 500 Journal and Conference papers have been published to date, among which more than 125 are by invitation.


|Recent Publications (2006-)| Selected Notable Publications (Pre 2006)|


Selected notable publications (1972-2006)

  1. C. S. Tsai and S. K. Yao, “Bragg Diffraction by Standing Ultrasonic Waves with Application to Optical Demultiplexing,”J. Appl. Phys., Vol.43, pp.5081-5084, 1972.

  2. C. S. Tsai, Le T. Nguyen, S. K. Yao and M. A. Alhaider, “A High Performance Acoustooptic Guided-Light Beam Device Using Two Tilting Surface Acoustic Waves,” Appl. Phys. Lett., Vol.26, pp.140-142, 1975.

  3. C. S. Tsai and P. Saunier, “Guided-Light Beam Deflection and Switching Using Electrooptic Prism Structure in LiNbO3 Waveguides,” Appl. Phys. Lett., Vol.27, pp.248-250, 1975.

  4. B. Kim and C.S. Tsai, “High-Performance Guided-Wave Acoustooptic Scanning Devices Using Multiple Surface Acoustic Waves,” Proc. IEEE, Vol.64, Special Issue on Surface Acoustic Waves, pp.788-793, 1976 (Invited Paper).

  5. W.S.C. Chang, C.S. Tsai, R.A. Becker, and I.W. Yao, “Convolution Using Guided Acoustooptical Interaction in Thin-Film Waveguides,” IEEE J. Quantum Electronics, Vol.QE-13, pp.208-215, 1977.

  6. C. S. Tsai, S. K. Wang, and C. C. Lee, “Visualization of Solid Material Joints Using a Transmission-Type Scanning Acoustic Microscope,” Appl. Phys. Lett., Vol.31, pp.317-320, 1977.

  7. C. S. Tsai, B. Kim and F. Akkari, “Optical Channel Waveguide Switch and Coupler Using Total Internal Reflection,” IEEE J. Quantum Electron., Vol.QE14, pp.513-517, 1978.

  8. C. S. Tsai, “Guided-Wave Acoustooptic Bragg Modulators for Wideband Integrated Optic Communications and Signal Processings,” Special Issue on Integrated and Guided Wave Optical Circuits and Systems, Vol.CAS-26, pp.1072-1098, 1979. (Invited paper) Nominated by IEEE Circuit and Systems Society for IEEE Donald Fink Award.

  9. C. C. Lee, K. Y. Liao, C. L. Chang, and C. S. Tsai, “Wideband Guided-Wave Acousto-Optic Bragg Detector Using a Tilted-Finger Chirp Transducer,” IEEE J. Quantum Electron, Vol.QE-15, pp.1166-1170, 1979.

  10. C.S. Tsai, “ Integrated Acoustooptical Circuits for Real-Time Wideband Signal-Processing,” Japn. J. Appl. Phys., Vol.19, pp.661-665, 1980.

  11. C.L. Chang, C. S. Tsai,“Electrooptic Analog-to-Digital Converter Using Channel Waveguide Fabry-Perot Modulator Array,” Appl. Phys. Lett., Vol.43, pp.22-24, 1983.

  12. J. K. Wang and C. S. Tsai, “Reflection Acoustic Microscopy for Thick Specimens,” J. Appl. Phys., Vol.55, pp.80-88, 1984.

  13. D. Y. Zang and C. S. Tsai, “Single-Mode Waveguide Microlenses and Microlens Arrays Fabrication Using Titanium Indiffusion Proton Exchange Technique in LiNbO3,” Appl. Phys. Lett., Vol.46, pp.703-705, 1985.

  14. Q. Li, C. S. Tsai, S. Sottini, and C. C. Lee, “Light Propagation and Acoustooptic Interaction in a LiNbO3 Spherical Waveguide,” Appl. Phys. Lett., Vol.46, pp.707-709, 1985.

  15. C. S. Tsai, D. Young, W. Chen, L. Adkins, C. C. Lee, and H. Glass, “Noncollinear Magnetooptic Interaction of Guided-Optical; Wave and Magnetostatic Surfaces Waves in YIG/GGG Waveguides,” Appl. Phys. Lett., Vol.47, pp.651-654, 1985.

  16. C. J. Lii, C. S. Tsai, and C. C. Lee, “Wideband Acoustooptic Bragg Cells in GaAsGaAlAs Waveguides,” IEEE J. Quantum Electron., Vol.QE-22, Special Issue on Integrated Optic Circuits, pp.868-872, 1986.

  17. C. S. Tsai, “INTEGRATED ACOUSTOOPTIC DEVICE MODULES FOR COMMUNICATIONS, SIGNAL-PROCESSING, AND COMPUTING,” Japn. J. Appl. Phys., VOl.26,pp.19-25,1987.

  18. X. Cheng and C. S. Tsai, “Electrooptic Bragg-Diffraction Modulator in GaAsGaAlAs Heterostructure Waveguide,” J. Lightwave Technology: Special Issue on Integrated Optic, Vol.6, pp.809-817, 1988.

  19. T. Vu, J. Norris, and C. S. Tsai, “Planar Waveguide Lenses in GaAs Using Ion Milling,” Appl. Phys. Lett., Vol.54, pp.1098-1100, 1989.

  20. D. Young and C. S. Tsai, “X-Band Magnetooptic Bragg Cells Using Bismuth-Doped Yttrium Iron Garnet Waveguides,” Appl. Phys. Lett., Vol.54, pp.2242-2244, 1989.

  21. Y. Abdelrazek, C. S. Tsai, and T. Q. Vu, “An Integrated Optic RF Spectrum Analyzers in A ZnO-GaAs-AlGaAs Waveguide,” IEEE J. Lightwave Tech., Vol.8, pp.1833-1838, 1990.

  22. Y. Pu. C. L. Wang and C. S. Tsai, “Magnetostatic Backward Volume Wave-Based Guided-Wave Magnetooptic Bragg Cells and Application to Wide-Band Light Beam Scanning,” IEEE Photonics Technology Lett., Vol.3, pp.462-465, May 1991.

  23. C. S. Tsai and P. Le, “A 4 X 4 Nonblocking Integrated Acoustooptic Space Switch,” Appl. Phys. Lett., Vol.60, pp.431-433, Jan. 1992.

  24. C. S. Tsai, “Integrated Acoustooptic Circuits and Applications,” IEEE Trans, Ultrasonics, Ferroelectrics and Frequency Control, Vol.39, pp.529-554, Sept. 1992 (Invited Distinguished Lecture Paper).

  25. Z. Y. Cheng and C. S. Tsai, “Baseband Integrated Acoustooptic Frequency Shifter,” Appl. Phys. Lett., Vol.60, pp.12-14, Jan. 1992.

  26. A. K. Roy and C. S. Tsai, “A 8 X 8 Symmetric Nonblocking Integrated Acoustooptic Space Switch Module in LiNbO3,” IEEE Photonics Technology Lett., Vol.4, pp.731-734, July 1992.

  27. G. D. Xu and C. S. Tsai, “Integrated Acoustooptic Heterodyning Device Modules in LiNbO3 Substrate,” Appl. Opt., Vol.31, GRIN Special Issue, pp.5259-5268, Sept. 1992.

  28. A. Kar-Roy and C. S. Tsai, “Integrated Acousto-optic Tunable Filters Using Weighted Coupling,” IEEE J. Quantum Electron, Vo1.30, 1574-1586, 1994.

  29. C. S. Tsai, “Integrated Acoustooptic and Magnetooptic Bragg Cell Modules for Information Processing,” IEEE Proc., Vol.84, Special Issue on Optical Information Processing, pp.853-869, 1996 (Invited Paper).

  30. C. S. Tsai, “Magnetostatic Waves-Based Integrated Magnetooptic Devices and Applications,” IEEE Trans. on Magnetics, Vol.32, pp.4118-4123, 1996 (Invited Paper).

  31. S. C. Tsai, P. Luu, P. Childs, A. Teshome, and C. S. Tsai, “The Role of Capillary Waves in Two-Fluid Atomization,” Physics of Fluids, Vol.9, 2909-2918, 1997.

  32. C. S. Tsai, Y..S. Lin, J. Su, and S. Calciu, “High Efficiency Guided-Wave Magnetooptic Bragg Cell Modulator Using Nonuniform Bias Magnetic Field,” Appl. Phys. Lett., Vol.70, pp.3185-3187, 1997.

  33. D. Grolemund and C.S. Tsai, “Statistical Moments of Backscattered Ultrasound in Porous Fiber Reinforced Composites,” IEEE Trans. Ultrasonics/Ferroelectrics/Frequency Control, Vol.45, pp.295-304, 1998.

  34. C.S. Tsai, D. Young, and S. Nikitov, “Microwave and Magnetooptic Measurements of Nonlinear Dispersive Magnetostatic Wave in YIG Waveguides, “J. Appl. Phys., Vol. 84, 1670-1679, 1998.

  35. S. C. Tsai, P. Luu, P. Tam, G. Roski, and C. S. Tsai, “Flow Visualization of Taylor-mode Breakup of a Viscous Jet,” AIP Physics of Fluids, Vol.11, pp.1331-1341, 1999.

  36. C.S. Tsai, and J. Su, “A Wideband Electronically Tunable Microwave Notch Filter Using Iron-Garnet-Gallium Arsenide Layer Structure,” Appl. Phys. Lett., Vol.74, pp.2079-2880, 1999.

  37. C. S. Tsai, J. Su, and C. C. Lee, “Wideband Microwave Notch Filter Using Iron-Gallium Arsenide Layer Structure,” IEEE Trans. On Magnetics, Vol. 35, 3178-3180, 1999.

  38. C. S. Tsai, “Tunable Devices Using Ferromagnetic Film-GaAs,” J. of Mag. and Mag. Mat, Vol.209, 10-14, 1999 (Invited Paper).

  39. A. M. Matteo, C. S. Tsai, and N. Do, “High-Efficiency Collinear Guided-Wave Acoustooptic Interactions in LiNbO3,” IEEE Trans. on Ultrasonics, Ferroelectrics and Frequency Control, Vol.47, pp.16-28, 2000.

  40. C. S. Tsai, W. Chen, P. Le, and S. C. Tsai, “Acousto-optic Interactions/Devices in Spherical Waveguide,” J. of Optics A: Pure and Appl. Optics, Vol.3, S46-S53, 2001 (Invited Paper).

  41. S. A. Nikitov, Ph. Tailhades, and C. S. Tsai, “Spin Waves in Periodic Magnetic Structures-Magnonic Crystals,” J. of Mag. and Mag. Mat, Vol.236, 320-330, 2001.

  42. W. Wu, C. C. Lee, C. S. Tsai, H. Hopster et al., “Epitaxial Fe/Ag Films” J. of Crystal Growth., Vol.225, 534-539, 2001.

  43. Y.V. Gulyaev, S.A. Nikitov, C.S. Tsai, et al., “Ferromagnetic Films with Magnon Bandgap Periodic Structures: Magnon Crystals,” JETP Letters, 77, 567-570, 2003 (selected for inclusion in Virtual J. of Nanoscale Science and Technology).

  44. S.C. Tsai, Y.L. Song, T.K. Tseng, Y.F. Chou, W.J. Chen, and C.S. Tsai, “High Frequency Silicon-Based Ultrasonic Nozzles Using Multiple Fourier Horns,” IEEE Trans. on Ultrasonics/Ferroelectrics and Frequency Control, 51, 277-286, 2004.

  45. M.J. Chen, J.L. Yen, J.Y. Li, J.F. Chang, S.C. Tsai, and C.S. Tsai, “Stimulated Emission in a Nanostructured Silicon PN Junction Diode Using Current Injection,” Applied Physics Letters, 84, 2163-2166, 2004 (selected for inclusion in the March 26, 2004 issue of Virtual J. of Nanoscale Science and Technology).

  46. K. Shiraishi and C.S. Tsai, “A Micro Light Beam Spot-Size Converter Using Hemi-Cylindrical GRIN-Slab Tip,” J. of Lightwave Technology, 23, 3821-3826, 2005.

  47. C.S. Tsai, G. Qiu, H. Gao, G.P. Li, L.W. Yang, and S.A. Nikitov, “Tunable Wideband Microwave Band-Stop and Band-Pass Filters Using YIG/GGG-GaAs Layer Structures,”IEEE Transaction on Magnetics, 41,3568-3570, 2005.
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