TITLE:
The Influence of γ-Irradiation on Thermoemf and Heat Conduction of Ln0.01Sn0.99Se (Ln - Pr, Tb, Er) Monocrystals
AUTHORS:
Jahangir Islam Huseynov, Tapdiq Aslan Jafarov
KEYWORDS:
Thermoemf; Heat Conduction; Rare-Earth Elements (REE); Thermal Resistance; γ-Irradiation; Radiation-Induced Defects
JOURNAL NAME:
World Journal of Condensed Matter Physics,
Vol.4 No.1,
February
10,
2014
ABSTRACT:
Monocrystals are synthesized and grown according to Bridgman-Stockbarger method, and the influence of rare earth elements (REE) as well as of γ-irradiation on electrophysical properties of (SnSe)1-x - (SnSe)x (Ln - Pr, Tb, Er) alloy system is investigated. During transition from SnSe to (SnSe)1-x - (SnSe)x solid solutions, a partial compensation of charge carriers occurs and additional scattering centres appear. At low temperatures T after irradiation with γ-quanta, thermoemf in samples of p-type conduction becomes higher and decreases in those of n-type conduction. In addition, under the influence of γ-rays radiation, defects come into being causing a decrease in lattice heat conduction and a rise in electron heat conduction. REE impurities are supposed to be positioned among the points of crystal lattice during irradiation with γ-quanta and, moreover, Frenkel defects are formed.