Experimental study of energy transport between two granular gas thermostats

TL;DR

This study investigates energy transfer between two granular gas thermostats using coupled probes, revealing proportional flux to temperature difference and fluctuation asymmetries consistent with the Fluctuation Theorem.

Contribution

It provides the first experimental analysis of energy transport and fluctuation asymmetries between non-equilibrium granular thermostats using macroscopic probes.

Findings

Energy flux proportional to temperature difference

High intermittency and fluctuation asymmetry observed

Fluctuation relations consistent with Fluctuation Theorem

Abstract

We report on the energy transport between two coupled probes in contact with granular thermostats at different temperatures. In our experiment, two identical blades, which are electromechanically coupled, are immersed in two granular gases maintained in different non-equilibrium stationary states, characterized by different temperatures. First, we show that the energy flux from one probe to another is, in temporal average, proportional to the temperature difference, as in the case of equilibrium thermostats. Second, we observe that the instantaneous flux is highly intermittent and that fluctuations exhibit an asymmetry which increases with the temperature difference. Interestingly, this asymmetry, related to irreversibility, is correctly accounted for by a relation strongly evoking the Fluctuation Theorem. As is, our experiment is a simple macroscopic realisation, suitable for the study of energy exchanges between systems in non-equilibrium steady states.