Average negative heat in a non-Markovian bath

TL;DR

This paper experimentally investigates the motion of a colloidal particle in a viscoelastic, non-Markovian bath, revealing systematic negative heat flow from the bath to the particle, which has implications for micro-engine design.

Contribution

It provides the first experimental observation of negative heat flow in a non-Markovian environment, supported by a simple time-delayed response model.

Findings

Negative heat flow observed during backward motion

Good agreement with a simple non-Markovian model

Implications for micro-engine optimization

Abstract

We experimentally study the motion of a colloidal particle, translated back and forth within a viscoelastic, i.e. non-Markovian bath. The particle starts in equilibrium before the forward motion, but only partially relaxes at the turning point. During the backward motion, we measure a systematic (negative) heat flow from the bath to the particle. Our observations are in good agreement with a simple model that describes the time-delayed response of the fluid. We expect our results to be important for the realization and optimization of novel types of micro-engines in non-Markovian surroundings.