DC Current Generation and Power Feature in Strongly Driven Floquet-Bloch Systems

TL;DR

This paper investigates DC current generation in strongly driven Floquet-Bloch systems, revealing intrinsic and extrinsic current components with distinct energy consumption behaviors, and explores how external field strength influences current magnitude.

Contribution

It introduces a unified framework for analyzing current responses and power features in driven Floquet systems, highlighting the intrinsic energy-free current and the extrinsic energy-consuming correction.

Findings

Intrinsic current consumes no energy and is related to Floquet quasi-equilibrium.

Extrinsic current requires sustained energy input from the external drive.

Large DC currents are achievable with appropriately strong driving fields.

Abstract

We study the DC current generation in a periodically driven Bloch system connected to a heat bath. Under a relaxation time approximation, the density matrix for such a system is obtained, which is related to two equilibria: a Floquet quasi-equilibrium where the density matrix is diagonal under the Floquet-Bloch eigenbasis and an instantaneous Bloch thermal equilibrium. Then, the current responses and their power features, i.e. the power input behavior, are discussed in a unified manner, which reveals that there exist an intrinsic current and an extrinsic correction. Remarkably, the intrinsic part consumes no energy and corresponds to the Floquet quasi-equilibrium, while the extrinsic part needs a sustained energy input and originates from a shift between two equilibrium ensembles. We further investigate the role of the external driving field strength finding that large DC currents can be generated under a relatively strong but not too strong driving field.