Fractals, Quasicrystals, Chaos, Knots and Algebraic Quantum Mechanics / edited by A. Amann, L.S. Cederbaum, W. Gans.
At the end of the workshop on "New Theoretical Concepts in Physical Chemistry", one of the participants made an attempt to present a first impression of its achievements from his own personal standpoint. Appar ently his views reflected a general feeling, so that the organizers thought they...
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| Other title: | Proceedings of the NATO Advanced Research Workshop, Acquafredda di Maratea, Italy, October 4-8, 1987. |
| Format: | eBook |
| Language: | English |
| Published: |
Dordrecht :
Springer Netherlands,
1988.
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| Series: | NATO ASI series. Mathematical and physical sciences ;
235. |
| Subjects: |
Table of Contents:
- Fractal Patterns in Chemistry
- Fractal Concepts in Reaction Kinetics
- Fractal Character of Chemical Reactions in Disordered Media
- Reaction Kinetics for Diffusion Controlled Aggregation
- Quasicrystals: From Periodic to Non-Periodic order in Solids
- Crystallography of Quasicrystals
- N-Dimensional Crystallographic Description of Icosahedral Phases; The Example of the Al73Mn21Si6 Quasiperiodic Structure
- The Growth of Icosahedral Phase
- On the Electronic Structure of Calaverite
- Chaotic Behavior of Classical Hamiltonian Systems
- Statistical Properties of Energy Levels and Connection to Classical Mechanics
- Quantum Suppression of Classical Chaos and Microwave Ionization of Hydrogen Atom
- Quantum Limitation of Chaotic Diffusion and Under-Threshold Ionization
- A Ro-Vibrational Study for the Regular/irregular Behaviour of the Co-Ar System
- Analysis of DNA Knots and Catenanes Allows to Deduce the Mechanism of Action of Enzymes Which Cut and Join DNA Strands
- Using Knot Theory to Analyze DNA Experiments
- to Knot and Link Polynomials
- Long Range Dynamics and Spontaneous Symmetry Breaking in Many-Body Systems
- Theoretical Concepts in Quantum Probability; Quantum Markov Processes
- The Large Deviation Principle in Statistical Mechanics
- Chirality as a Classical Observable in Algebraic Quantum Mechanics.