$1/f$ noise on the brink of wet granular melting

TL;DR

This study experimentally investigates wet granular clusters under swirling motion, revealing that 1/f noise in fluctuations signals the onset of melting and phase transitions in nonequilibrium systems.

Contribution

It demonstrates that 1/f noise can serve as an indicator of melting in driven wet granular systems, linking fluctuation spectra to phase transition dynamics.

Findings

Power spectra exhibit 1/f noise during melting

Fluctuation behavior correlates with stationary states

1/f noise signals phase transition onset

Abstract

The collective behavior of a two-dimensional wet granular cluster under horizontal swirling motions is investigated experimentally. Depending on the balance between the energy injection and dissipation, the cluster evolves into various nonequilibrium stationary states with strong internal structure fluctuations with time. Quantitative characterizations of the fluctuations with the bond orientational order parameter $q_{\rm 6}$ reveal power spectra of the form $f^{\alpha}$ with the exponent $\alpha$ closely related to the stationary states of the system. In particular, $1/f$ type of noise with $\alpha\approx-1$ emerges as melting starts from the free surface of the cluster, suggesting the possibility of using $1/f$ noise as an indicator for phase transitions in systems driven far from thermodynamic equilibrium.