Physica C, ( ISI ), Volume (519), No (1), Year (2015-9) , Pages (60-64)

Title : ( Thermally activated flux flow in Fe1.06Te0.6Se0.4 single crystal )

Authors: M. Shahbazi , X.L. Wang , Shaban Reza Ghorbani , S.X. Dou , C.T. Lin ,

Citation: BibTeX | EndNote

Resistivity of Fe1.06Te0.6Se0.4 single crystal is investigated around superconducting transition region in different magnetic fields. The thermally activated energy (TAE) is analysed using the Arrhenius relation and modified thermally activated flux flow (TAFF) model. The results indicate that the Arrhenius curve slopes are directly related to but not equal to TAE. Therefore, use of the modified TAFF model is suggested,ρ(T,B)=ρ0exp(−U/T), where the temperature dependence of the pre-factorρ0f=2ρcU/Tand the nonlinear relation of the TAE should be considered. The modified TAFF method results are in good agreement with the very high critical current density values from the experimental data. It was found that the vortex glass has a narrow region, and it depends weakly on magnetic field. The vortex phase diagram was determined based on the evolution of the vortex-glass transition temperature with magnetic field and the upper critical field.

Keywords

, Fe1.06Te0.6Se0.4 single crystal; Thermally activated energy; activation energy; vortex, glass
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@article{paperid:1050289,
author = {M. Shahbazi and X.L. Wang and Ghorbani, Shaban Reza and S.X. Dou and C.T. Lin},
title = {Thermally activated flux flow in Fe1.06Te0.6Se0.4 single crystal},
journal = {Physica C},
year = {2015},
volume = {519},
number = {1},
month = {September},
issn = {0921-4534},
pages = {60--64},
numpages = {4},
keywords = {Fe1.06Te0.6Se0.4 single crystal; Thermally activated energy; activation energy; vortex-glass transition},
}

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%0 Journal Article
%T Thermally activated flux flow in Fe1.06Te0.6Se0.4 single crystal
%A M. Shahbazi
%A X.L. Wang
%A Ghorbani, Shaban Reza
%A S.X. Dou
%A C.T. Lin
%J Physica C
%@ 0921-4534
%D 2015

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