Free Path Lengths in Quasicrystals

Free Path Lengths in Quasicrystals

Previous studies of kinetic transport in the Lorentz gas have been limited to cases where the scatterers are distributed at random (e.g., at the points of a spatial Poisson process) or at the vertices of a Euclidean lattice. In the present paper we investigate quasicrystalline scatterer configuratio...

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Veröffentlicht in:Communications in mathematical physics 2014, Vol.330 (2), p.723-755
Hauptverfasser: Marklof, Jens, Strömbergsson, Andreas
Format: Artikel
Sprache:eng
Schlagworte:
Apexes
Classical and Quantum Gravitation
Complex Systems
Configurations
Lattices (mathematics)
Lorentz gas
Mathematical and Computational Physics
Mathematical Physics
Physics
Physics and Astronomy
Probability distribution functions
Quantum Physics
Quasicrystalline structure
Quasicrystals
Random variables
Relativity Theory
Theoretical
Tiling
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Beschreibung
Zusammenfassung:Previous studies of kinetic transport in the Lorentz gas have been limited to cases where the scatterers are distributed at random (e.g., at the points of a spatial Poisson process) or at the vertices of a Euclidean lattice. In the present paper we investigate quasicrystalline scatterer configurations, which are non-periodic, yet strongly correlated. A famous example is the vertex set of a Penrose tiling. Our main result proves the existence of a limit distribution for the free path length, which answers a question of Wennberg. The limit distribution is characterised by a certain random variable on the space of higher dimensional lattices, and is distinctly different from the exponential distribution observed for random scatterer configurations. The key ingredients in the proofs are equidistribution theorems on homogeneous spaces, which follow from Ratner’s measure classification.
ISSN:0010-3616
1432-0916
1432-0916
DOI:10.1007/s00220-014-2011-3