Parity Effect in Mesoscopic and Nanoscopic Superconducting Particles

Abstract

Superconductivity in small metallic specimens is studied with regard to the size dependence of the &#34;parity gap&#34; (DeltaP), a parameter distinguishing between the energy of even and odd number of electrons in the granule. DeltaP is shown to be an increasing function of level spacing delta. The energy gap of superconductor Delta, on the other hand, decreases with increasing delta and vanishes at delta=deltac which is of the order of Delta. However, nonzero value of DeltaP persists above deltac in a &#34;gapless&#34; superconducting-insulating state. Level degeneracy in small specimens having perfect geometry changes the size dependence of the parity gap, the Josephson effect, and flux quantization. Parity gap is evaluated using an interpolation procedure between the continuum limit (delta<<Delta), the moderate mesoscopic regime (delta ~ Delta), and the nanoscopic scale (delta>>Delta), for which an exact solution to the pairing problem is provided with the numeric diagonalization of system Hamiltonian in a small metallic cluster.

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