- Askarpour, V., Manghnani, M.H., Fassbender, S., and Yoneda, A., 1993, Elasticity of single-crystal MgAl2O4 spinel up to 1273 K by Brillouin spectroscopy, Phys. Chem. Mineral. 19:511.CrossRefGoogle Scholar
- Farnell, G.W., and Adler, E.L., 1972, Elastic wave propagation in thin layers, in: “Physical Acoustics,” Vol. IX, W.P. Mason and R.N. Thurston, eds., Academic Press, New York.Google Scholar
- Fate, W.A., 1975, High-temperature elastic moduli of polycrystalline silicon nitride, J. Appl. Phys. 46:2375.CrossRefGoogle Scholar
- Hickernell, T.S., Fliegel, F.M., and Hickernell, F.S., 1990, The elastic properties of thin-film silicon nitride, 1990 IEEE Ultrason. Symp. 2:445.Google Scholar
- Hillbrands, B., Lee, S., Stegeman, G.I., Cheng, H., Potts, J.E., and Nizzoli, F., 1988, Evidence for the existence of guided longitudinal acoustic phonons in ZnSe films on GaAs, Phys. Rev. Lett. 60:832.CrossRefGoogle Scholar
- Nizzoli, F., and Sandercock, J.R., 1990, Surface Brillouin scattering from phonons, in: “dynamical Properties of Solids,” G.K. Horton, ed., Elsevier, New York.Google Scholar
- Press, W.H., Flannery, B.P., Teukulsky, S.A., and Vetterling, W.T., 1986, “Numerical Recipes,” Cambridge, New York.Google Scholar
- Sandercock, J.R., 1982, Trends in Brillouin scattering: studies of opaque materials, supported films, and central modes, in: “Light Scattering in Solids,” M. Cardona and G. Güntherodt, eds., Springer, Berlin.Google Scholar
- Slobodnik, A.J., Conway, E.D., and Delmonico, R.T., 1973, “Microwave Acoustic Handbook,” air Force Cambridge Research Laboratories.Google Scholar
- Tsubouchi, K., and Mikoshiba, N., 1985, Zero-temperature-coefficient SAW devices on AIN epitaxial films, IEEE Trans. Sonics Ultrason. SU-32:634.CrossRefGoogle Scholar
Optical properties of these amorphous silicon nitride thin films have been extensively characterized by absorption, photoluminescence (PL), photoluminescence excitation, and electroluminescence measurements.