Diagnostic Technique for Diamond Thin Film Quality Using Infrared Transmission Spectroscopy

[in Chinese]; [in Chinese]

[1] J. Wagner, C. Wild, W. Müler-Sebert et al.. Infrared Raman study of the phonon linewidth and the nondiamond carbon phase in 〈110〉 and 〈100〉 textured polycrystalline diamond film. Appl. Phys. Lett., 1992, 61(11): 1284～1286

[2] J. Wagner, C. Wild, P. Koidl. Resonance effects in Raman scattering from polycrystalline diamond films. Appl. Phys. Lett., 1991, 59(7): 779～781

[3] Diane S. Knight, Ronald Weimer, Lawrence Pilinoe et al.. Surface-enhanced Raman spectroscopy of chemical vapor deposited diamond films. Appl. Phys. Lett., 1990, 56(14): 1320～1322

[4] A. M. Bonnot. Raman microscopy of diamond crystals and thin films prepared by hot-filament-assisted chemical vapor deposition. Physical Review B, 1990, 41(9): 6040～6049

[5] M. Yoshikawa, G. Katagiri, H. Ishida et al.. Characterization of crystalline quality of diamond films by Raman spectroscopy. Appl. Phys. Lett., 1989, 55(25): 2608～2610

[6] R. G. Buckley, T. D. Moustakas, Ling Ye et al.. Characterization of filament-assisted chemical vapor deposition diamond films using Raman spectroscopy. J. Appl. Phys., 1989, 66(8): 3595～3599

[7] J. C. Manifacier, J. Gasiot, J. P. Fillard. A simple method for the determination of the optical constants n, k and the thickness of a weakly absorbing thin film. J. Phys. (E), 1976, 9(11): 1002～1004

[8] Zhang Binglin, Shen Shupo, Wang Jianen et al.. Blue-green electroluminescence of free-standing diamond thin films. Chinese Phys. Lett., 1994, 11(4): 235～238

[9] J. P. Borgogno, B. Lazarides, E. Pelletier. Automatic determination of the optical constants of inhomogeneous thin films. Appl. Optics, 1982, 21(22): 4020～4029

[10] W. S. Boyle, P. Nozières. Band structure and infrared absorption of graphite. Phys. Rev., 1958, 111(3): 782～785

[11] E. A. Taft, H. R. Philipp. Optical properties of graphite. Physical Review, 1965, 138(1A): A197～A202

[12] N. Savvides. Optical constants and associated functions of metastable diamondlike amorphous carbon films in the energy range of 0.5～7.3 eV. J. Appl. Phys., 1986, 59(12): 4133～4145

[13] J. Knoll, J. Geiger. Optical constants of arc-evaporated amorphous carbon in the far-infrared spectral region. Physical Review (B), 1984, 29(10): 5651～5655

[14] N. Savvides. Four-fold to three-fold transitionin diamond-like amorphous carbon films: A study of optical and electrical properties. J. Appl. Phys., 1985, 58(1): 518～521

[15] C. B. Collins, F. Davanloo, D. R. Jander et al.. Microstructure of amporphic diamond films. J. Appl. Phys., 1991, 69(11): 7862～7870