Kovacs memory effect with an optically levitated nanoparticle

TL;DR

This paper demonstrates the observation of the Kovacs memory effect in the thermalization process of a levitated nanoparticle, revealing complex nonequilibrium dynamics at the nanoscale.

Contribution

First experimental observation of the Kovacs effect in a levitated nanoparticle system, linking memory effects to nanoscale thermalization processes.

Findings

Kovacs effect observed in nanoparticle center of mass dynamics

Thermalization controlled via external Gaussian noise

Effect described without fitting parameters

Abstract

The understanding of the dynamics of nonequilibrium cooling and heating processes at the nanoscale is still an open problem. These processes can follow surprising relaxation paths due to, e.g., memory effects, which significantly alter the expected equilibration routes. The Kovacs effect can take place when a thermalization process is suddenly interrupted by a change of the bath temperature, leading to a non-monotonic dependence of the energy of the system. Here, we demonstrate that the Kovacs effect can be observed in the thermalization of the center of mass motion of a levitated nanoparticle. The temperature is controlled during the experiment through an external source of white gaussian noise. We describe our experiments in terms of the dynamics of a Brownian particle in a harmonic trap without any fitting parameter, suggesting that the Kovacs effect canappear in a large variety of systems.