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Angle-dependent dissipation effects in topological insulator-based Josephson junctions

Published 13 Feb 2025 in cond-mat.supr-con, cond-mat.mes-hall, and cond-mat.other | (2502.09397v1)

Abstract: Dissipation fundamentally alters quantum transport in Josephson junctions. Here, we demonstrate unique transport signatures in dissipative topological insulator-based Josephson junctions, which provide a powerful platform for exploring the competition between dissipation and topological protection. We incorporate dissipation effects by coupling a lossy' metallic lead at the junction to an electron reservoir, and describe its effects using an effective non-Hermitian Hamiltonian within the Lindblad formalism. Non-Hermiticity introduces finite lifetimes to the helical Andreev bound states in the junction, with imaginary energy components that depend on the quasiparticle incidence angle, while Klein tunneling remains robust for normal incidence. Unlikeordinary' non-Hermitian Josephson junctions, this system exhibits no Josephson gaps or forbidden regions, preserving topological protection. In the fully non-Hermitian regime, a tunable line of zero-energy states emerges, bounded by exceptional-like points with divergent supercurrents. Our results reveal how dissipation reshapes superconducting transport in topological insulator-based Josephson junctions, opening new directions for dissipation-engineered hybrid quantum devices.

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