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Antonenko, Domoratsky, Kudzin, Sadovskaya (1999)
PIEZOELECTRIC PROPERTIES OF Bi_2TeO_5 SINGLE CRYSTALSCondensed Matter Physics, 2
W. Mason, Walter Mayer (1965)
Physical acoustics : principles and methodsPhysics Today, 18
K. Domoratskii, V. Pastukhov, A. Kudzin, L. Sadovskaya, V. Rizak, V. Stefanovich (2000)
Raman scattering in the Bi2TeO5 single crystalPhysics of the Solid State, 42
K. Domoratsky, A. Kudzin, L. Sadovskaya, G. Sokolyanskii (1998)
Doping influence on the physical properties of Bi2TeO5 single crystalsFerroelectrics, 214
K. Domoratskii, L. Sadovskaya, V. Rizak, V. Stefanovich (1999)
Investigation of the specific heat of bismuth tellurite in the temperature range 100–370 KPhysics of the Solid State, 41
D. Mercurio, M. Farissi, B. Frit, P. Goursat (1983)
Etude structurale et densification d'un nouveau materiau piezoelectrique: Bi2TeO5Materials Chemistry and Physics, 9
This paper reports on the results of investigations of the thermal conductivity along the three crystallographic directions in bismuth tellurite crystals. It is found that bismuth tellurite exhibits a low thermal conductivity inherent in glasses and disordered solid solutions. At temperatures below the Debye temperature, the thermal conductivity coefficients depend on the temperature as , which is characteristic of disordered solid solutions. The temperature dependence of the thermal conductivity of bismuth tellurite is calculated in the framework of the Debye model.
Physics of the Solid State – Springer Journals
Published: Dec 1, 2002
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