Magnetic Field Induced Density of States in Superconducting MgB$_{2}$: Measurement of Conduction Electron Spin-Susceptibility

A. Janossy; Ames; Astronomy; C. Petrovic; Department of Physics; F. Muranyi (Budapest University of Technology; F. Simon; Hungary); Iowa); Lausanne

arxiv: cond-mat/0302620 · v1 · pith:MCPE7SSZnew · submitted 2003-02-28 · ❄️ cond-mat.supr-con · cond-mat.str-el

Magnetic Field Induced Density of States in Superconducting MgB₂: Measurement of Conduction Electron Spin-Susceptibility

F. Simon , A. Janossy , T. Feher , F. Muranyi (Budapest University of Technology , Hungary) , S. Garaj , L. Forro (Ecole Polytechnique , Lausanne

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Switzerland) C. Petrovic S. Bud'ko R. A. Ribeiro P. C. Canfield (Ames Laboratory U.S. DOE Department of Physics Astronomy Ames Iowa)

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classification ❄️ cond-mat.supr-con cond-mat.str-el

keywords fieldmagneticconductiondensityelectronfieldsinducedspin-susceptibility

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The magnetic field dependence of the spin-susceptibility, $\chi_{s}$ was measured in the superconducting state of high purity MgB$_{2}$ fine powders below 1.3 T. $\chi_{s}$ was determined from the intensity of the conduction electron spin resonance spectra at 3.8, 9.4, and 35 GHz. At the lowest magnetic fields (0.14 T), a gap opens in the density of states at the Fermi energy and, accordingly, $\chi_{s}(T)$ is small at low temperatures. Fields above 0.2 T (about 15 % of $H^{c}_{c2}$, the minimum upper critical field), destroy the gap. The field induced $\chi_{s}$ is much larger than expected from current superconductor models of MgB$_{2}$.

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Magnetic Field Induced Density of States in Superconducting MgB₂: Measurement of Conduction Electron Spin-Susceptibility

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