Mathematics of Aperiodic Order

What is order that is not based on simple repetition, that is, periodicity? How must atoms be arranged in a material so that it diffracts like a quasicrystal? How can we describe aperiodically ordered systems mathematically? Originally triggered by the - later Nobel prize-winning - discovery of quasicrystals, the investigation of aperiodic order has since become a well-established and rapidly evolving field of mathematical research with close ties to a surprising variety of branches of mathematics and physics. This book offers an overview of the state of the art in the field of aperiodic order, presented in carefully selected authoritative surveys. It is intended for non-experts with a general background in mathematics, theoretical physics or computer science, and offers a highly accessible source of first-hand information for all those interested in this rich and exciting field. Topics covered include the mathematical theory of diffraction, the dynamical systems of tilings or Delone sets, their cohomology and non-commutative geometry, the Pisot substitution conjecture, aperiodic Schrödinger operators, and connections to arithmetic number theory.

Inhaltsangabe0. Introductory chapter.- 1. Mathematical diffraction theory.- 2. Pisot substitution conjecture.- 3. Topology of tiling spaces.- 4. Proximality in tiling spaces.- 5. Linear repetitive Delone sets of finite local complexity.- 6. Tilings with infinite local complexity.- 7. Stability of non-periodic solids.- 8. Aperiodic Schrödinger operators.- 9. Non commutative geometry of tilings.- 10. Arithmetic properties of subshifts.