
The response of materials and the functioning of devices is often associated with noise. In this book, Stefano Zapperi concentrates on a particular type of noise, known as crackling noise, which is characterized by an intermittent series of broadly distributed pulses. While representing a nuisance in many practical applications, crackling noise can also tell us something useful about the microscopic processes ruling the materials behavior. Each crackle in the noise series usually corresponds to a localized impulsive event, an avalanche, occurring inside the material. A distinct statistical feature of crackling noise, and of the underlying avalanche behavior, is the presence of scaling, observed as power-law distributed noise pulses, long-range correlation, and scale free spectra. These are the hallmarks of critical phenomena and phase transitions. This work summarizes the current understanding of crackling noise, reviewing research undertaken in the past 30 years, from the early and influential ideas on self-organized criticality in sandpile models, to more modern studies on disordered systems. Crackling Noise covers the main theoretical models used to investigate avalanche phenomena, describes the statistical tools needed to analyze crackling noise, and provides a detailed discussion of a set of relevant examples of crackling noise in materials science. These include acoustic emission in fracture, strain bursts in amorphous and crystal plasticity, granular avalanches, magnetic noise in ferromagnets and superconductors, and fluid flow in porous media. The book concludes by considering the wider application of these models in the natural sciences.
This book investigates the physical mechanisms and statistical properties of crackling noise, a phenomenon characterized by intermittent, power-law distributed pulses in disordered systems. Stefano Zapperi, a researcher in statistical physics, synthesizes three decades of research to explain how these impulsive events, or avalanches, serve as indicators of microscopic material behavior and critical phenomena. The text provides a rigorous framework for understanding how scaling and long-range correlations manifest across diverse physical systems.
What You Will Find
Scope Limits
Experts recognize this work as a comprehensive synthesis of the field, bridging early sandpile models with contemporary research in plasticity and magnetism. Readers frequently note the technical density of the prose, which is intended for graduate-level students and researchers in condensed matter physics.
Page Count:
512
Publication Date:
2022-01-01
Publisher:
OUP Oxford
ISBN-10:
0192671006
ISBN-13:
9780192671004
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