Geoscience Reference
In-Depth Information
[54] G. Demazeau, F. Lafon, Hydrothermal crystal growth of
α
-quartz: new specificities
correlated to applications, J. de Physique IV, 4[C
2
] (1994) 13
18.
[55] H.G. Lipson, A. Kahan, J. O' Connor, Aluminum and hydrogen defect centers in vac-
uum swept quartz, in: IEEE Proceedings of the 37th Annual Symposium on Frequency
Control, Bedford Mas., New York, 1983, pp. 169
173.
[56] J.G. Gualtieri, The influence of temperature and electric field on the etch-channel den-
sity in swept cultured quartz, in: IEEE Proceedings of the 39th Annual Symposium on
Frequency Control, New York, 1985, pp. 247
254.
[57] J. Martin, Electro-diffusion or sweeping of ions in quartz, in: IEEE Proceedings of the
41st Annual Symposium on Frequency Control, Philadelphia, USA, 1987, pp.
167
174.
[58] B. Fraser, Factors influencing the acoustic properties of vitreous silica, in: W.P. Mason
(Ed.), Physical Acoustics 5 (54) Academic Press, NY, (1968) Ch. 2.
[59] H. Bahadur, Sweeping and irradiation effects on hydroxyl defects in crystalline natural
quartz, IEEE Trans. Ultrason. Ferr. 41 (1994) 820
833.
[60] P. Zecchini, K. Yamni, B. Viard, Modifications induced by sweeping and observed in
quartz crystals according to their
α
3500
-value, J. de Physique IV, 4[C
2
]
(1994)
189
194.
[61] M. Deleuze, O. Cambon, A. Goiffon, A. Ibanez, E. Philippot, Controlled dissolution of
quartz material, Part I, controlled dissolution of quartz plates in potassium and sodium
hydroxides: chemical thinning down of SC cuts, J. de Physique IV, 4[C
2
]
(1994)
79
84.
[62] K. Brauer, E. Muller, Correlation between parameters of plastic deformation in doped
NaCl Crystals, Cryst. Res. Technol. 19 (1984) K101
109.
[63] O. Cambon, M. Deleuze, J.P. Michel, J.P. Aubry, A. Goiffon, E. Philippot, Controlled
dissolution of quartz material, Part II, quartz chemical etching applied to blanks indus-
trial manufacturing, J. de Physique IV, 4[C
2
] (1994) 85
91.
[64] N. Takahashi, T. Nakumura, S. Nonaka, Y. Kubo, Y. Sinriki, K. Tamanuki, Growth
of crystalline quartz films with AT-cut plane by means of catalyst-enhanced vapor
phase epitaxy under atmosphere pressure, J. Phys. Chem. Solids 66 (2005)
1145
1149.
[65] B. Iliescu, I. Enculescu, I. Pera, G. Alexe, S. Polosan, A. Stanculescu, Chemical com-
position of structures obtained inside quartz crystals by sodium electrodiffusion, Cryst.
Res. Technol. 36 (2001) 403
410.
[66] Y. Murakami, S. Chiashi, Y. Miyauchi, M. Hu, M. Ogura, T. Okubo, et al., Growth of
vertically aligned single-walled carbon nanotube films on quartz substrates and their
optical anisotropy, Chem. Phys. Lett. 385 (2004) 298
303.
[67] D. Schwarzenbach, Verfeinezung der Struktur der Tiefquarz-Modification von AlPO
4
,
Z Krist. 123 (1966) 161
185.
[68] Z.P. Chang, G.R. Barsch, Elastic constants and thermal expansion of berlinite, IEEE
Trans. Sonics Ultrason. 23 (1976) 127
130.
[69] R.M. O'Connell, P.H. Corr, Temperature compensated cuts of berlinite and
β
-eucryp-
tite: for saw devices, in: Proceedings of the 31st Annual Frequency on Control
Symposium, Atlantic City, NJ, 1977, pp. 182
186.
[70] E.D. Kolb, A.M. Glass, R.L. Rosenberg, J.C. Grenier, R.A. Laudise, Dielectric and pie-
zoelectric properties of aluminum phosphate, in: Proceedings of the 35th Ultrasonic
Symposium, New York, NY, 1981.
[71] J. Vogel, W. Holand, W. Vogel, US Patent 4698318, assigned to Jenaer Glaswerk,
October 6, 1987.
