Page 365 - Introduction to Information Optics

P. 365

350 6. Interconnection with Optics

6.20 R, K. Kostuk, J. W. Goodman, and L, Hesselink, 1987, "Design Considerations for
Holographic Optical Interconnects," Appl. Opt., vol. 26, pp. 3947 3953.
6.21 G. D. Boyd, L. A. Coldren, and F. G. Storz, 1980, "Directional Reactive ion Etching at
Oblique Angles," Appl. Phys. Lett., vol. 36, no. 7, pp. 583-585.
6.22 jianhua Gan, Linghui Wu, Hongfa Luan, Bipin Bihari, and Ray T. Chen, 1999, "Two-
Dimensional 45" Surface-Normal Microcoupler Array for Guided-Wave Optical Clock
Distribution," IEEE Phot. Tech. Lett, vol. 11, pp. 1452 1454.
6.23 M. Sypek, 1995, "Light Propagation in the Fresnel Region: New Numerical Approach,"
Optics Communications, vol. 116, 43-48.
6.24 J. W. Goodman, Introduction to Fourier Optics, 2nd edition, pp. 63 89, McGraw-Hill
Publishers, New York, 1996.
6.25 M. Saiful Islam, 1999, "Distributed Balanced Photodetectors for High-Performance RF
Photonic Links," IEEE Phot. Tech. Letts., vol. 11, no. 4, pp. 457-459.
6.26 Bing Li, Suning Tang, Ninhua Jiang, Zan Shi, and Ray T. Chen, 2000, "Switching
Characteristic of Wide-Band MSM and PIN Photodetectors for Photonic-Phased Array
Antenna," Proc. SPIE, 3952-A13.
6.27 O. Wada, Optoelectronic Integration: Physics, Technology, and Applications, Norwell, Mas-
sachusetts, Kluwer Academic, 1994.
6.28 Y. Sasaki, T. Katayama, T. Koishi, K. Shibahara, S. Yokoyama, S. Miyazaki, and M. Hirose,
1999, "High-Speed GaAs Epitaxial Liftoff and Bonding with High Alignment Accuracy Using
a Sapphire Plate," J. Electrochem. Soc., 146(2), pp. 710-712.
6.29 B. D. Dingle, M. B. Spitzer, R. W. McClelland, J. C. C. Fan, and P. M. Zavracky, 1993,
"Monolithic Integration of a Light Emitting Diode Array and a Silicon Circuit Using
Transfer Process," Appl. Phys. Lett. 62(22), pp. 2760-2762.
6.30 E. Yablonovitch, T. Sands, D. M. Hwang, I. Schnitzer, T. J. Emitter, S. K. Shastry. D. S. Hill,
and J. C. C. Fan, 1991, "Van der Walls Bonding of GaAs on Pd Leads to a Permanent,
Solid-Phase-Topotaxial Metallurgical Bond," Appl. Phys. Lett. 59(24), pp. 3159-3161.
6.31 J. W. Goodman, F. I. Leonberger, S. Y. Kung, and R. A. Athale, 1984, "Optical Interconnec-
tions for VLSI systems," Proc. IEEE 72, pp. 850 866.
6.32 M. R. Feldman, S. C. Esener, C. C. Guest, and S. H. Lee, 1988, "Comparison between Optical
and Electrical Interconnects Based on Power and Speed Considerations," Appl. Opt., vol. 27,
pp. 1742-1751.
6.33 Founad E. Kiamilev, Philippe Marchand, Ashok V. Krishnamoorthy, Sadik C. Esener, and
Sing H. Lee, 1993, "Performance Comparison between Optoelectronic and VLSI Multistage
Interconnects Networks," IEEE J. of Light. TechnoL, vol. 9, pp. 1674-1692.
6.34 Paola Cinato and Kenneth C. Young, Jr., 1993, "Optical Interconnections within Multichip
Modules," Opt. Eng., vol. 32, pp. 852-860.
6.35 Bradley D. Clymer and Joseph W. Goodman, 1986, "Optical Clock Distribution to Silicon
Chips," Opt. Eng., vol. 25, pp. 1103-1108.
6.36 Suning Tang, Ray T. Chen, and Mark Peskin, 1994, "Packing Density and Interconnection
Length of a Highly Parallel Optical Interconnect Using Polymer-Based Single Mode Bus
Arrays," Opt. Eng., vol. 33, pp. 1581-1586.
6.37 Ray T. Chen, 1993, "Polymer-Based Photonic Integrated Circuits," Opt. Laser Tech.. vol. 25,
pp.'347 365.
6.38 Ray. T. Chen, H. Lu, D. Robinson, Michael Wang, Gajendra Savant, and Tomasz Jamison,
1992, "Guided-Wave Planar Optical Interconnects Using Highly Multiplexed Polymer
Waveguide Holograms," IEEE J. Light. TechnoL, vol. 10, pp. 888 897.
6.39 R. W. Wickman, 1996, "Implementation of Optical Interconnects in GigaRing Supercom-
puter Channel," Proc. SPIE, vol. CR62, pp. 343-356.
6.40 Suning Tang and Ray T. Chen, 1994, "l-to-42 Optoelectronic Interconnection for Intramulti-
chip-Module Clock Signal Distribution," Appl. Phys, Lett., vol. 64, pp. 2931-2933.

360 361 362 363 364 365 366 367 368 369 370