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Proceedings Paper

Resonant amplification of the Andreev process in short Josephson junctions
Author(s): Zoran Radovic; Ivana Petkovic; Nikolai M. Chtchelkatchev
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Paper Abstract

We study the Josephson effect in short ballistic SINIS and SIFIS double-barrier junctions, consisting of clean superconductors (S), a normal metal (N) or ferromagnet (F), and insulating interfaces (I). For SINIS double-tunnel junctions, the critical Josephson current as a function of the junction width shows sharp peaks because of resonant amplification of the Andreev process when the quasi-bound states of the normal interlayer enter the superconducting gap and morph into phase-sensitive bound states. For SIFIS double-tunnel junctions the corresponding quasi-bound states are spin-split, they amplify the supercurrent less efficiently, and trigger transitions between 0 and π states of the junction. In contrast to SINIS junctions where the critical current reaches a peak value when the Andreev bound states cross the Fermi surface, here a narrow dip opens up exactly at the peak due to compensation of partial currents flowing in opposite directions. With increased barrier transparency, the described mechanism is modified by the broadening and overlap of quasi-bound states. Temperature-induced transitions both from 0 to π and from π to 0 states are studied by computing the phase diagram (with temperature and junction width as the variables) for different interfacial transparencies varying from transparent metallic to the tunnel limit.

Paper Details

Date Published: 6 October 2005
PDF: 8 pages
Proc. SPIE 5932, Strongly Correlated Electron Materials: Physics and Nanoengineering, 59320O (6 October 2005); doi: 10.1117/12.616711
Show Author Affiliations
Zoran Radovic, Univ. of Belgrade (Serbia and Montenegro)
Ivana Petkovic, Univ. of Belgrade (Serbia and Montenegro)
Lab. de Physique des Solides (France)
Nikolai M. Chtchelkatchev, L.D. Landau Institute for Theoretical Physics, RAS (Russia)
Institute for High Pressure Physics, RAS (Russia)


Published in SPIE Proceedings Vol. 5932:
Strongly Correlated Electron Materials: Physics and Nanoengineering
Ivan Bozovic; Davor Pavuna, Editor(s)

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