Theory of enhanced proximity effect by mid gap Andreev resonant state in diffusive normal metal / triplet superconductor junctions

Abstract

Enhanced proximity effect by mid gap Andreev resonant state (MARS) in a diffusive normal metal / insulator / triplet superconductor (DN/TS) junction is studied based on the Keldysh-Nambu quasiclassical Green's function formalism. By choosing a p-wave superconductor as a typical example of TS, conductance of the junction and the spatial variation of quasiparticle local density of states (LDOS) in DN are calculated as the function of the magnitudes of the resistance Rd, Thouless energy in DN and the transparency of the insulating barrier. The resulting conductance spectrum has a zero bias conductance peak (ZBCP) and LDOS has a zero energy peak (ZEP) except for α = π/2 (0 ≤ α ≤ π/2), where α denotes the angle between the lobe direction of the p-wave pair potential to the normal to the interface. These peaks are revealed to be suppressed by applying a magnetic field. When the magnitude of Rd/R0 is sufficiently large, the total zero voltage resistance of the junction is almost independent of the Rd for α ≠ π/2. The extreme case is α=0, where total zero voltage resistance is always R0/2. Based on these results, a crucial test to identify triplet pairing superconductors based on tunneling experiments is proposed.

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