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Flux nucleation in the current-induced resistive state of a constricted type I superconductor

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The current-induced resistive state in a constricted type I superconductor is characterized by a train of flux tubes traversing the sample perpendicular to the direction of the applied current following its nucleation at the sample edge. The temporal structure of the nucleation process can be investigated by attempting to synchronize this process with small periodic current pulses superimposed on the direct bias current. The resistive dc voltage is then to be measured as a function of the pulse parameters such as frequency and width. We have performed such experiments at 4.2 K on constricted Pb films of 6–8 Μm thickness and 100 Μm width. Simultaneously with the electrical measurements the dynamic behavior of the flux tubes was directly observed using a stroboscopic magnetooptical method for magnetic flux detection. Our electrical measurements clearly show how the size of the nucleated flux tubes varies with the direct bias current and the nucleation frequency. The positive wall energy in the Pb films results in a lower limit for this size as expected. The influence of the preceding flux tubes still existing within the constriction upon the flux nucleation process is revealed in detail. All observations can be understood from a consideration of the energy balance during the flux nucleation process.

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Authors and Affiliations

  1. Physikalisches Institut II, Universität Tübingen, Tübingen, West Germany

    K. P. Selig & R. P. Huebener

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  1. K. P. Selig
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  2. R. P. Huebener
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Supported by a grant of the Deutsche Forschungsgemeinschaft.

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Selig, K.P., Huebener, R.P. Flux nucleation in the current-induced resistive state of a constricted type I superconductor. J Low Temp Phys 43, 37–64 (1981). https://doi.org/10.1007/BF00118621

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  • DOI: https://doi.org/10.1007/BF00118621

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