Experimental determination of the nonextensive entropic parameter q

abstract

We show how to extract the q parameter from experimental data, considering an inhomogeneous magnetic system composed by many Maxwell-Boltzmann homogeneous parts, which after integration over the whole system recover the Tsallis nonextensivity. Analyzing the cluster distribution of La0.7Sr0.3MnO3 manganite, obtained through scanning tunneling spectroscopy, we measure the q parameter and predict the bulk magnetization with good accuracy. The connection between the Griffiths phase and nonextensivity is also considered. We conclude that the entropic parameter embodies information about the dynamics, the key role to describe complex systems.

keywords

PHASE-SEPARATION; MANGANITES; BEHAVIOR; MAGNETS; MODEL

subject category

Physics

authors

Reis, MS; Amaral, VS; Sarthour, RS; Oliveira, IS

our authors

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