# Quantum stochastic transport along chains

**Authors:** Dekel Shapira, Doron Cohen

arXiv: 1907.01993 · 2020-06-26

## TL;DR

This paper investigates quantum stochastic transport along chains, exploring how coherent and stochastic processes interact, revealing non-monotonic current behavior and disorder effects in quantum models relevant to phenomena like photosynthesis.

## Contribution

It introduces a quantum version of classical transport models, analyzing the effects of disorder and bias within a unified framework using an Ohmic master equation.

## Key findings

- Non-monotonic current dependence on bias
- Counter-intuitive enhancement of disorder due to coherence
- Quantum sliding and delocalization transitions

## Abstract

The spreading of a particle along a chain, and its relaxation, are central themes in statistical and quantum mechanics. One wonders what are the consequences of the interplay between coherent and stochastic transitions. This fundamental puzzle has not been addressed in the literature, though closely related themes were in the focus of the Physics literature throughout the last century, highlighting quantum versions of Brownian motion. Most recently this question has surfaced again in the context of photo-synthesis. Here we consider both an infinite tight-binding chain and a finite ring within the framework of an Ohmic master equation. With added disorder it becomes the quantum version of the Sinai-Derrida-Hatano-Nelson model, which features sliding and delocalization transitions. We highlight non-monotonic dependence of the current on the bias, and a counter-intuitive enhancement of the effective disorder due to coherent hopping.

## Full text

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## Figures

15 figures with captions in the complete paper: https://tomesphere.com/paper/1907.01993/full.md

## References

10 references — full list in the complete paper: https://tomesphere.com/paper/1907.01993/full.md

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Source: https://tomesphere.com/paper/1907.01993