Page 337 - Microsensors, MEMS and Smart Devices - Gardner Varadhan and Awadelkarim
P. 337
REFERENCES 317
Ewing, W. M., Jardetsky, W.S., and Press, F. (1957). Elastic Waves in Layered Media, McGraw-
Hill, New York.
Gangadharan, S. (1999). Design, development and fabrication of a conformal love wave ice sensor,
MS thesis (Advisor V.K. Varadan), Pennsylvania State University, USA.
Gizeli, E., Goddard, N. J., Lowe, C. R. and Stevenson, A. C. (1992). "A love plate biosensor util-
ising a polymer layer," Sensors and Actuators A, 6, 131–137.
Gizeli, E., Liley, M. and Lowe, C. R. (1995). Detection of supported lipid layers by utilising the
acoustic love waveguide device: applications to biosensing, Technical Digest of Transducers '95,
vol. 2, IEEE, pp. 521-523.
Grate, J. W., Martin, S. J. and White, R. M. (1993a). "Acoustic wave microsensors, Part I," Analyt-
ical Chem., 65, 940-948.
Grate, J. W., Martin, S. J. and White, R. W. (1993b). "Acoustic wave microsensors. Part II,"
Analytical Chem., 65, 987-996.
Haueis, R. et al, (1994). A love wave based oscillator for sensing in fluids, Proceedings of the 5th
International Meeting of Chemical Sensors (Rome, Italy), 1, 126–129.
Hoummady, M., Hauden, D. and Bastien, F. (1991). "Shear horizontal wave sensors for analysis of
physical parameters of liquids and their mixtures," Proc. IEEE Ultrasonics Symp., 1, 303-306.
Kondoh, J. and Shiokawa, S. (1995). Liquid identification using SH-SAW sensors, Technical Digest
of Transducers'95, vol. 2, IEEE, pp. 716-719.
Kondoh, J., Matsui, Y. and Shiokawa, S. (1993). "New biosensor using shear horizontal surface
acoustic wave device," Jpn. J. Appl. Phys., 32, 2376-2379.
Kovacs, G. and Venema, A. (1992). "Theoretical comparison of sensitivities of acoustic shear wave
modes for (bio)chemical sensing in liquids," Appl. Phys. Lett., 61, 639–641.
Kovacs, G., Vellekoop, M. J., Lubking, G. W. and Venema, A. (1993). A love wave sensor for
(bio)chemical sensing in liquids, Proceedings of the 7th International Conference on Solid-State
Sensors and Actuators, Yokohama, Japan, pp. 510-513.
Love, A. E. H. (1934). Theory of Elasticity, Cambridge University Press, England.
Mason, W. P. (1942). Electromechanical Transducers and Wave Filters, Van Nostrand, New York.
Morgan, D. P. (1978). Surface-Wave Devices for Signal Processing, Elsevier, The Netherlands.
Nakamura, N., Kazumi, M. and Shimizu, H. (1977). "SH-type and Rayleigh-type surface waves on
rotated Y-cut LiTaO3," Proc. IEEE Ultrasonics Symp., 2, 819-822.
Shiokawa, S. and Moriizumi, T. (1987). Design of SAW sensor in liquid, Proceedings of the 8th
Symposium on Ultrasonic Electronics, July, Tokyo.
Smith, W. R. (1976). "Basics of the SAW interdigital transducer," Wave Electronics, 2, 25–63.
Tournois, P. and Lardat, C. (1969). "Love wave dispersive delay lines for wide band pulse compres-
sion," Trans. Sonics Ultrasonics, SU-16, 107–117.
Varadan, V. K. and Varadan, V. V. (1997). "IDT, SAW and MEMS sensors for measuring deflec-
tion, acceleration and ice detection of aircraft," SP1E, 3046, 209-219.
Viktorov, I. A. (1967). Rayleigh and Lamb Waves: Physical Theory and Applications, Plenum Press,
New York.
White, R. W. and Voltmer, F. W. (1965). "Direct piezoelectric coupling to surface elastic waves,"
Appl. Phys. Lett., 7, 314–316.
