What defines stationarity in space plasmas

TL;DR

This paper develops an entropy-based measure of stationarity in space plasmas, validated across multiple heliospheric datasets, enhancing understanding of plasma dynamics and nonstationary behavior.

Contribution

It introduces a novel entropy formulation and a stationarity deviation index (SDI) to quantify plasma stationarity, validated with real space plasma data.

Findings

Entropy variations are bounded by twice the thermodynamic kappa.

The ratio of entropy deviation scales with kappa deviation via a power-law.

The SDI measures the system's tendency to depart from stationarity.

Abstract

Starting from the concept of entropy defect in thermodynamics, we construct the entropy formulation of space plasmas, and then use it to develop a measure of their stationarity. In particular, we show that statistics of this entropy results in two findings that improve our understanding of stationary and nonstationary systems: (i) variations of the Boltzmann-Gibbs (BG) entropy do not exceed twice the value of the thermodynamic kappa, the parameter that provides a measure of the entropy defect in both stationary and nonstationary states, while becomes the shape parameter that labels the kappa distributions in stationary states; and (ii) the ratio of the deviation of the BG entropy with kappa scales with the kappa deviation via a power-law, while the respective exponent provides a stationarity deviation index (SDI), which measures the natural tendency of the system to depart from stationarity. We confirm the validity of these findings in three different heliospheric plasma datasets observed from three missions: (1) A solar energetic particle event, recorded by the Integrated Science Investigation of the Sun instrument onboard Parker Solar Probe; (2) Near Earth solar wind protons recorded by the Solar Wind Experiment instrument onboard WIND; and (3) Plasma protons in the heliosheath, source of energetic neutral atoms recorded by IBEX. The full strength and capability of the entropic deviation ratio and SDI can now be used by the space physics community for analyzing and characterizing the stationarity of space plasmas, as well as other researchers for analyzing any other correlated systems.