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Critical fields, thermally-activated transport and critical current density of beta-FeSe single crystals

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arxiv 1108.0407 v1 pith:QCYJF2SX submitted 2011-08-01 cond-mat.supr-con

Critical fields, thermally-activated transport and critical current density of beta-FeSe single crystals

classification cond-mat.supr-con
keywords criticalbeta-fesecurrentdensityfieldssinglebelowcrystals
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We present critical fields, thermally-activated flux flow (TAFF) and critical current density of tetragonal phase beta-FeSe single crystals. The upper critical fields Hc2(T) for H||(101) and H\bot(101) are nearly isotropic and are likely governed by Pauli limiting process. The obtained large Ginzburg-Landau parameter k \sim 72.3(2) indicates that beta-FeSe is a type-II superconductor with smaller penetration depth than in Fe(Te,Se). The resistivity below Tc follows Arrhenius TAFF behavior. For both field directions below 30 kOe single vortex pinning is dominant whereas collective creep becomes important above 30 kOe. The critical current density Jc from M-H loops for H||(101) is about five times larger than for H\bot(101), yet much smaller than in other iron-based superconductors.

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