Tunneling density of states in Luttinger Liquid in proximity to a superconductor: Effect of non-local interaction

TL;DR

This paper investigates how non-local interactions and superconducting proximity effects influence the tunneling density of states in a Luttinger liquid near a superconductor, revealing conditions for enhancement and their underlying symmetry relations.

Contribution

It demonstrates that non-local interactions can amplify TDOS enhancement due to superconductivity and establishes a symmetry-based explanation for the mutually exclusive regimes of enhancement.

Findings

TDOS enhancement can be amplified by non-local interactions.

Mutually exclusive enhancement regimes depend on boundary conditions.

TDOS and pair potential have distinct spatial power law dependencies.

Abstract

A recent study have shown that it is possible to have enhancement, in contrast to an expected suppression, in tunneling density of states (TDOS) in a Luttinger liquid (LL) which is solely driven by the non-local density-density interactions. Also, it is well known that a LL in proximity to a superconductor (SC) shows enhancement in TDOS in the vicinity of the junction in the zero energy limit. In this paper, we study the interplay of nonlocal density-density interaction and superconducting correlations in the TDOS in the vicinity of the SC-LL junction, where the LL maybe realized on the edge of an integer or a fractional quantum Hall state. We show that the TDOS enhancement in a LL quantum wire (QW) due to superconducting correlation at the junction can be farther amplified in presence of appropriate choice of non-local interaction parameters, which is demonstrated through a neat algebraic expression in the weak interaction limit. We also show that, in the full parameter regime comprising both the local and the non-local interaction, the region of enhanced TDOS for LL junction with "superconducting" boundary condition and that of "non-superconducting charge conserving" boundary condition (discussed in Phys. Rev. B 104, 045402 (2021)) are mutually exclusive. We show that this fact can be understood in terms of symmetry relation established between the superconducting and non-superconducting sectors of the theory. We compare the dependence of the proximity induced pair potential and TDOS as a function of distance $x$ from the junction. We demonstrate that the dependence of the spatial power law exponent for the `TDOS(x)/TDOS(x -> 0)' and the `pair-potential(x)/pair-potential(x -> 0)' are distinct function of the various local and non-local interaction parameters, which implies that the TDOS enhancement can not be directly attributed to the proximity induced pair potential in the LL.