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The complex nature of superconductivity in MgB2 as revealed by the reduced total isotope effect

D. G. Hinks (), H. Claus and J. D. Jorgensen
Additional contact information
D. G. Hinks: Argonne National Laboratory
H. Claus: Argonne National Laboratory
J. D. Jorgensen: Argonne National Laboratory

Nature, 2001, vol. 411, issue 6836, 457-460

Abstract: Abstract Magnesium diboride, MgB2, was recently observed to become superconducting1 at 39 K, which is the highest known transition temperature for a non-copper-oxide bulk material. Isotope-effect measurements, in which atoms are substituted by isotopes of different mass to systematically change the phonon frequencies, are one of the fundamental tests of the nature of the superconducting mechanism in a material. In a conventional Bardeen–Cooper–Schrieffer (BCS) superconductor, where the mechanism is mediated by electron–phonon coupling, the total isotope-effect coefficient (in this case, the sum of both the Mg and B coefficients) should be about 0.5. The boron isotope effect was previously shown to be large2 and that was sufficient to establish that MgB2 is a conventional superconductor, but the Mg effect has not hitherto been measured. Here we report the determination of the Mg isotope effect, which is small but measurable. The total reduced isotope-effect coefficient is 0.32, which is much lower than the value expected for a typical BCS superconductor. The low value could be due to complex materials properties, and would seem to require both a large electron–phonon coupling constant and a value of μ* (the repulsive electron–electron interaction) larger than found for most simple metals.

Date: 2001
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DOI: 10.1038/35078037

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