Absence of a boron isotope effect in the magnetic penetration depth of MgB$_{2}$

A. Shengelaya; D. Di Castro; D. G. Eshchenko; H. Keller; I.M. Savi\'c; J. Karpinski; J. Roos; K. Conder; M. Angst; P. C. Canfield

arxiv: cond-mat/0307330 · v2 · submitted 2003-07-14 · ❄️ cond-mat.supr-con

Absence of a boron isotope effect in the magnetic penetration depth of MgB₂

D. Di Castro , M. Angst , D. G. Eshchenko , R. Khasanov , J. Roos , I.M. Savi\'c , A. Shengelaya , S. L. Bud'ko

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P. C. Canfield K. Conder J. Karpinski S. M. Kazakov R. A. Ribeiro H. Keller

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keywords lambdaborondeptheffectisotopepenetrationmagneticabsence

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The magnetic penetration depth $\lambda(0)$ in polycrystalline MgB$_{2}$ for different boron isotopes ($^{10}$B/$^{11}$B) was investigated by transverse field muon spin rotation. No boron isotope effect on the penetration depth $\lambda(0)$ was found within experimental error: $\Delta\lambda(0)/\lambda(0) = -0.8(8)%$, suggesting that MgB$_{2}$ is an adiabatic superconductor. This is in contrast to the substantial oxygen isotope effect on $\lambda(0)$ observed in cuprate high-temperature superconductors.

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Absence of a boron isotope effect in the magnetic penetration depth of MgB₂

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