Absence of the Transition into Abrikosov Vortex State of Two-Dimensional Type-II Superconductor with Weak Pinning
Abstract
The resistive properties of thin amorphous NbOx films with weak pinning were investigated experimentally above and below the second critical field Hc2. As opposed to bulk type II superconductors with weak pinning where a sharp change of resistive properties at the transition into the Abrikosov state is observed at Hc4, some percent below Hc2 (V.A.Marchenko and A.V.Nikulov, 1981), no qualitative change of resistive properties is observed down to a very low magnetic field, Hc4 < 0.006 Hc2, in thin films with weak pinning. The smooth dependencies of the resistivity observed in these films can be described by paraconductivity theory both above and below Hc2. This means that the fluctuation superconducting state without phase coherence remains appreciably below Hc2 in the two-dimensional superconductor with weak pinning. The difference the Hc4/Hc2 values, i.e. position of the transition into the Abrikosov state, in three- and two-dimensional superconductors conforms to the Maki-Takayama result 1971 year according to which the Abrikosov solution 1957 year is valid only for a superconductor with finite dimensions. Because of the fluctuation this solution obtained in the mean field approximation is not valid in a relatively narrow region below Hc2 for bulk superconductors with real dimensions and much below Hc2 for thin films with real dimensions. The superconducting state without phase coherence should not be identified with the mythical vortex liquid because the vortex, as a singularity in superconducting state with phase coherence, can not exist without phase coherence.
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