Maria Bayard Dühring - Solid Mechanics

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58 Chapter 7 Concluding remarks

References [1] H. Kuttruff, Room acoustics, 4th edition. Spon Press, Taylor & Francis Group, 2000. [2] B. A. Auld, Acoustic fields and waves in solids, vol. I and II, 1st edition. Wiley, New York, 1973. [3] D. Royer and E. Dieulesaint, Elastic waves in solids, I and II. Springer, 2000. [4] L. Rayleigh, “On waves propagating along a plane surface of an elastic solid,” Proc. London Math. Soc., vol. 1-17, pp. 4–11, 1885. [5] P. Curie and J. Curie, “Développement, par pression, de l’électricité polaire dans les cristeux hémièdres à faces inclinées,” C.R. Acad. Sc. Paris, vol. 92, 1880. [6] R. M. White and F. W. Voltmer, “Direct piezoelectric coupling to surface elastic waves,” Appl. Phys. Lett., vol. 7, no. 12, pp. 314–316, 1965. [7] K. Y. Hashimoto, Surface acoustic wave devices in telecommunications, modelling and simulation. Springer, Berlin, 2000. [8] S. Takahashi, H. Hirano, T. Kodama, F. Miyashiro, B. Suzuki, A. Onoe, T. Adachi, and K. Fujinuma, “SAW IF filter on LiTaO3 for color TV receivers,” IEEE Trans. Consumer Electron., CE-24, vol. 3, pp. 337–348, 1978. [9] K. Shibayama and K. Fujinuma in Proc. International Symp. on Surface Acoustic Wave Devices for Mobile Communication, 1992. [10] U. Wolff, F. L. Dickert, G. K. Fischauer, W. Greibl, and C. C. W. Ruppel, “SAW sensors for harsh environments,” IEEE Sensors Journal, vol. 1, no. 1, pp. 4–13, 2001. [11] F. G. Smith and T. A. King, Optics and photonics, an introduction. Wiley, New York, 2000. [12] J. C. Maxwell, “A dynamical theory of the electromagnetic field,” Philosophical Transactions of the Royal Society of London, vol. 155, pp. 459–512, 1865. [13] R. Syms and J. Cozens, Optical guided waves and devices, 1st edition. McGRAW-Hill, London, 1992. 59

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Page 112 and 113: [23] J. Riishede and O. Sigmund, In

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optical

optimization

waves

optimized

waveguide

topology

modes

frequency

acoustic

interaction

bayard

mechanics

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