Biomedical Engineering Reference
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29. Ury, L., K.Y. Lau, N. Barchaim, and A. Yariv. 1982. Very high frequency
GaAlAs laser field effect transistor monolithic integrated circuit.
Appl. Phys.
Lett
. 41:126.
30. Matsueda, H. and M. Nakamura. 1984. Monolithic integration of laser diode
photomonitor, and electronic circuits on a semi-insumating GaAs substrate.
Appl. Opt
. 23:779.
31. Dakss, M., L. Kuhn, P. F. Keidrich, and B. A. Scott. 1970.
Appl. Phys. Lett
. 16:532.
32. Robertson, M. J., S. Ritchie, and P. Dayan. 1985. Semiconductor waveguides:
Analysis of coupling between rib waveguides and optical fibers.
Proceedings of
SPIE
578, p. 184.
33. Hammer, J. M., R. A. Bartolini, A. Miller, and C. C. Neil. 1976.
Appl. Phys. Lett
.
28:192.
34. Bulmer, C. H., and M. G. Wilson. 1976. Single mode grating coupling.
IEEE
J. Quant. Electron
. QE-14:741.
35. Cherin, A. H. 1983.
An Introduction to Optical Fibers
. New York: McGraw Hill, pp.
240-241.
36. Hunsperger, R. G., A. Yariv, and A. Lee. 1977.
Appl. Opt
. 16:1-26.
37. Mergerian, D. and E. C. Malarkey. 1980.
Microwave J
. 23:37.
Mergerian, D., E. C. Marlarkey, M. A. Mentzer, et al. 1982. Advanced integrated
optic RF spectrum analyzer.
Proceedings of SPIE
324, p. 149.
Ranganath, T. R. and T. R. Joseph. 1981. Integrated optical circuits for RF spec-
trum analysis. Final report contract #F33615-78-C-1450. Hughes Research
Laboratories for Air Force Wright Aeronautical Laboratories, July.
38. Emkey, W. L. 1983. Optical coupling between single mode semiconductor lasers
and strip waveguides.
IEEE J. Lightwave Tech
. LT-1:436.
39. Kingerly, W. D., Bowen, H. K., and Uhlmann, D. R. 1976.
Introduction to Ceramics
.
New York: John Wiley & Sons, pp. 685-701.
40. Olsen, G. H., and V.S. Ban. 1987. InGaAs: The next generation of photonic mate-
rials.
Solid State Technol
. 30(2):99.
Korotky, S. et al. 1986. Integrated optic narrow line width laser.
Appl. Phys.
Lett
. 49(1).
41. Chung, P. S. December 1986. Integrated electro-optic modulators and switches.
J. Electr. Electron. Eng
. Aust.—IE Aust. and IREE Aust. 6(4).
42. Kingerly, Bowen, and Uhlmann,
Introduction to Ceramics
. New York: John
Wiley & Sons: 685-701.
43. Boloyaev, R., V. V. Levin, L. E. Marasin, Yu. V. Popov, and L. Yu. Kharberger.
1986. Photorefraction in lithium niobate planar waveguides.
Opt. Spectrosc
.
(USSR) 61(1):119-120.
44. Alferness, R. C. 1986. Titanium diffused lithium niobate planar waveguide
devices.
ISAF'86 Proceedings
, June 8-11.
45. Burns, W., P. Klein, and E. West. 1986. Ti diffusion in Ti:LiNbO3 optical wave-
guide fabrication.
J. Appl. Phys
. 60(10).
46. Twigg, M., D. M. Maher, S. Nakahara, T. T. Sheng, and R. J. Holmes. 1987. Study
of structural faults in Ti diffused lithium niobate.
Appl. Phys. Lett
. 50(9):501-503.
Bourns, W. et al. 1979.
J. Appl. Phys
. 50:6175.
47. Caruthers, J., I. Kaminow, and L. Stulz. 1974. Diffusion kinetics and opti-
cal waveguiding properties of out-diffused layers in LiNbO
3
.
Appl. Opt
.
13(10):2333-2342.
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