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ZMEŠKAL, O. NEŠPŮREK, S. VESELÝ, M. DZIK, P.
Original Title
Statistics of fractal systems
Type
journal article - other
Language
English
Original Abstract
Distribution functions are used for the description of energy distribution of elementary particles, atoms, and molecules in dynamic systems. These distribution functions depend on the energy of the system and on its properties. The paper focuses on the generalization of the relationships commonly used to study the statistical properties of particles in 3D space so that they become generally applicable onto an E-dimensional space. These relationships can then be applied e.g. for studying the properties of the particles in 2D and in 1D space. Two approaches are discussed to describe the classic (Maxwell Boltzmann) and quantum (Fermi-Dirac, Einstein-Bose) distribution functions. The first approach is based on standard theory of probability, the second one on the fractal theory. We have shown that both approaches lead to the same results for defined boundary conditions. But the validity of the second one, i.e. the fractal approach, is much more general.
Keywords
fractal physics, classic and quantum statistics, classical theory of statistics, fractal theory of statistics
Authors
ZMEŠKAL, O.; NEŠPŮREK, S.; VESELÝ, M.; DZIK, P.
RIV year
2014
Released
23. 6. 2014
Publisher
Springer
Location
Heidelberg
ISBN
2194-5357
Periodical
Advances in Intelligent Systems and Computing
Year of study
289
Number
1
State
Swiss Confederation
Pages from
55
Pages to
63
Pages count
9
BibTex
@article{BUT109916, author="Oldřich {Zmeškal} and Stanislav {Nešpůrek} and Michal {Veselý} and Petr {Dzik}", title="Statistics of fractal systems", journal="Advances in Intelligent Systems and Computing", year="2014", volume="289", number="1", pages="55--63", issn="2194-5357" }