# Nonlinear dynamics and band transport in a superlattice driven by a   plane wave

**Authors:** A. Apostolakis, M. K. Awodele, K. N. Alekseev, F. V. Kusmartsev, A. G., Balanov

arXiv: 1702.08737 · 2017-06-14

## TL;DR

This paper investigates nonlinear quantum particle transport in superlattices driven by plane waves, revealing complex behaviors like non-monotonic velocities and phase space bifurcations through exact semiclassical solutions.

## Contribution

It introduces a kinetic approach beyond linear approximation and applies exact path-integral solutions to analyze nonlinear transport phenomena in superlattices.

## Key findings

- Particle drift shows non-monotonic dependence on wave amplitude
- Global bifurcations significantly alter phase space and transport regimes
- Different phase trajectories contribute to directed transport

## Abstract

A quantum particle transport induced in a spatially-periodic potential by a propagating plane wave has a number important implications in a range of topical physical systems. Examples include acoustically driven semiconductor superlattices and cold atoms in optical crystal. Here we apply kinetic description of the directed transport in a superlattice beyond standard linear approximation, and utilize exact path-integral solutions of the semiclassical transport equation. We show that the particle drift and average velocities have non-monotonic dependence on the wave amplitude with several prominent extrema. Such nontrivial kinetic behaviour is related to global bifurcations developing with an increase of the wave amplitude. They cause dramatic transformations of the system phase space and lead to changes of the transport regime. We describe different types of phase trajectories contributing to the directed transport and analyse their spectral content.

## Full text

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## Figures

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## References

54 references — full list in the complete paper: https://tomesphere.com/paper/1702.08737/full.md

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Source: https://tomesphere.com/paper/1702.08737