Molecular Dynamics Simulation
by Giovanni Ciccotti, Mauro Ferrario, Christof Schuette
Publisher: MDPI AG 2014
Number of pages: 628
The contributions collected in this book move from the quantum-statistical description to the validity of classical modeling; they present some perspectives in the algorithmic and in the enhanced sampling approaches, tackling some longstanding challenges to simulation in the area of non-equilibrium, rare events, mesoscale and quantum-classical simulation.
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by H. A. Lorentz - B.G. Teubner
Based on a course of lectures delivered at Columbia University by Nobel laureate H. A. Lorentz, this texte remains remarkably modern. Its outstanding discussion of general principles and experimental facts keep it vital.
by R. Victor Jones - Harvard University
Theoretical background needed to understand developments in optical research and photonic technology. Topics presented include wave propagation in anisotropic media; interaction of light with matter; quantization of the radiation field; etc.
by Jerome Faist - Eidgenossische Technische Hochshule Zurich
A broad overview of the basic physical processes that govern the interaction between the light and semiconductor. The text shows the richness of the topic and shows the thread connecting the original research of the sixties and today's literature.
by Tom Kirchner - York University
From the table of contents -- Introduction: the field-free Schroedinger hydrogen atom; Atoms in electric fields: the Stark effect; Interaction of atoms with radiation; Brief introduction to relativistic Quantum Mechanics.