Correlation between the transition temperature and the superfluid   density in BCS superconductor NbB_2+x

R. Khasanov; A. Shengelaya; A. Maisuradze; D. Di Castro; R. Escamilla,; and H. Keller

arXiv:0712.2067·cond-mat.supr-con·November 13, 2009

Correlation between the transition temperature and the superfluid density in BCS superconductor NbB_2+x

R. Khasanov, A. Shengelaya, A. Maisuradze, D. Di Castro, R. Escamilla,, and H. Keller

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Abstract

The results of the muon-spin rotation experiments on BCS superconductors NbB_2+x (x = 0.2, 0.34) are reported. Both samples, studied in the present work, exhibit rather broad transitions to the superconducting state, suggesting a distribution of the volume fractions with different transition temperatures (T_c)'s. By taking these distributions into account, the dependence of the inverse squared zero-temperature magnetic penetration depth (\lambda_0^{-2}) on T_c was reconstructed for temperatures in the range 1.5K<T_c<8.0K. \lambda_0^{-2} was found to obey the power law dependence \lambda_0^{-2}\propto T_c^{3.1(1)} which appears to be common for some families of BCS superconductors as, {\it e.g.}, Al doped MgB_2 and high-temperature cuprate superconductors as underdoped YBa_2Cu_3O_{7-\delta}.

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