Journal ArticleDOI
Quantitative topographic analysis of fractal surfaces by scanning tunneling microscopy
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TLDR
In this article, the applicability of models based on fractal geometry to length scales of nanometers is confirmed by Fourier analysis of scanning tunneling microscopy images of a sputter deposited gold film, a copper fatigue fracture surface, and a single crystal silicon fracture surface.Abstract:
The applicability of models based on fractal geometry to length scales of nanometers is confirmed by Fourier analysis of scanning tunneling microscopy images of a sputter deposited gold film, a copper fatigue fracture surface, and a single crystal silicon fracture surface. Surfaces are characterized in terms of fractal geometry with a Fourier profile analysis, the calculations yielding fractal dimensions with high precision. Fractal models are shown to apply at length scales to 12 A, at which point the STM tip geometry influences the information. Directionality and spatial variation of the topographic structures are measured. For the directions investigated, the gold and silicon appeared isotropic, while the copper fracture surface exhibited large differences in structure. The influences of noise in the images and of intrinsic mathematical scatter in the calculations are tested with profiles generated from fractal Brownian motion and the Weierstrass-Mandelbrot function. Accurate estimates of the fractal dimension of surfaces from STM data result only when images consist of at least 1000–2000 points per line and 1/f-type noise has amplitudes two orders of magnitude lower than the image signal. Analysis of computer generated ideal profiles from the Weierstrass-Mandelbrot function and fractional Brownian motion also illustrates that the Fourier analysis is useful only in determining the local fractal dimension. This requirement of high spatial resolution (vertical information density) is met by STM data. The fact that fractal models can be used at lengths as small as nanometers implies that continued topographic structural analyses may be used to study atomistic processes such as those occurring during fracture of elastic solids.read more
Citations
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Fractal Dimension of Fractured Surfaces: A Universal Value?
TL;DR: In this article, different fracture modes and different fracture toughness values were obtained on an aluminium alloy subjected to four different heat treatments, and the correlation functions of the bidimensional cuts of the four fractured surfaces were determined.
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Image Processing Handbook, Fourth Edition
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Fractals in fractography
TL;DR: In this paper, a modified Richardson fractal equation for profiles and fracture surfaces was proposed to obtain constant slopes from the reversed sigmoidal curve (RSC) for both profiles and surfaces respectively, where slopes from RSCs are related to the new constant fractal dimensions D β and D γ in the modified fractal equations for profiles.
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Non-linear and non-local transport processes in heterogeneous media: from long-range correlated percolation to fracture and materials breakdown
TL;DR: In this article, the authors review and discuss recent progress in modelling non-linear and non-local transport processes in heterogeneous media, and the interplay between the nonlinearity and nonlocality is discussed in depth with the aim of establishing that, often non linearity andnon-locality are "two sides of the same coin" such that one may have no meaning without the presence of the other one.
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The Image Processing Handbook, Fourth Edition
TL;DR: This revision of the established standard acts as a singular resource for professionals in the medical, biological, and materials sciences as well as a range of engineering venues, including electrical and computer engineering, optical engineering, telecommunications, and artificial intelligence.
References
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Book
The Fractal Geometry of Nature
TL;DR: This book is a blend of erudition, popularization, and exposition, and the illustrations include many superb examples of computer graphics that are works of art in their own right.
Journal ArticleDOI
Dynamic Scaling of Growing Interfaces
TL;DR: A model is proposed for the evolution of the profile of a growing interface that exhibits nontrivial relaxation patterns, and the exact dynamic scaling form obtained for a one-dimensional interface is in excellent agreement with previous numerical simulations.
Journal ArticleDOI
Fractal character of fracture surfaces of metals
TL;DR: In this article, a new method, slit island analysis, is introduced to estimate the fractal dimension, D. The estimate is shown to agree with the value obtained by fracture profile analysis, a spectral method.