Muon-spin-rotation measurements of the penetration depth in Li2Pd3B
Abstract
Measurements of the magnetic field penetration depth λ in the ternary boride superconductor Li2Pd3B (Tc7.3 K) have been carried out by means of muon-spin rotation (μSR). The absolute values of λ, the Ginzburg-Landau parameter , and the first Hc1 and the second Hc2 critical fields at T=0 obtained from μSR were found to be λ(0)=252(2) nm, (0)=27(1), μ0Hc1(0)=9.5(1) mT, and μ0Hc2(0)=3.66(8) T, respectively. The zero-temperature value of the superconducting gap 0=1.31(3) meV was found, corresponding to the ratio 20/kBTc=4.0(1). At low temperatures λ(T) saturates and becomes constant below T 0.2Tc, in agreement with what is expected for s-wave BCS superconductors. Our results suggest that Li2Pd3B is a s-wave BCS superconductor with the only one isotropic energy gap.
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