Frontiers in Quantum Systems in Chemistry and Physics için kapak resmi
Frontiers in Quantum Systems in Chemistry and Physics
Başlık:
Frontiers in Quantum Systems in Chemistry and Physics
ISBN:
9781402087073
Edition:
1st ed. 2008.
Yayın Bilgileri:
Dordrecht : Springer Netherlands : Imprint: Springer, 2008.
Fiziksel Tanımlama:
XI, 587 p. online resource.
Series:
Progress in Theoretical Chemistry and Physics, 18
Contents:
Workshop -- to the Workshop -- Quantum Systems in Chemistry and Physics XIIth Workshop Report -- Proceedings -- Study of the Electronic Structure of the Unconventional Superconductor Sr2RuO4 by the Embedded Cluster Method -- An Introduction to the Density Matrix Renormalization Group Ansatz in Quantum Chemistry -- Method of Moments of Coupled Cluster Equations Employing Multi-Reference Perturbation Theory Wavefunctions: General Formalism, Diagrammatic Formulation, Implementation, and Benchmark Studies -- Guidelines on the Contracted Schrödinger Equation Methodology -- Molecular Energy Decompositions in the Hilbert-Space of Atomic Orbitals at Correlated Level -- Dirac-Coulomb Equation: Playing with Artifacts -- Are Einstein's Laws of Relativity a Quantum Effect? -- Electron Correlation and Nuclear Motion Corrections to the Ground-State Energy of Helium Isoelectronic Ions from Li to Kr -- Unusual Features in Optical Absorption and Photo-Ionisation of Quantum Dot Nano-Rings -- Relative Energies of Proteins and Water Clusters Predicted with the Generalized Energy-Based Fragmentation Approach -- Generalised Spin Dynamics and Induced Bounds of Automorphic [A]nX, [AX]n NMR Systems via Dual Tensorial Sets: An Invariant Cardinality Role for CFP -- The Macroscopic Quantum Behavior of Protons in the KHCO3 Crystal: Theory and Experiments -- A DFT Study of Adsorption of Gallium and Gallium Nitrides on Si(111) -- Viscosity of Liquid Water via Equilibrium Molecular Dynamics Simulations -- Stochastic Description of Activated Surface Diffusion with Interacting Adsorbates -- Interactions and Collision Dynamics in O2 + O2 -- The Non-Adiabatic Molecular Hamiltonian: A Derivation Using Quasiparticle Canonical Transformations -- Alternative Technique for the Constrained Variational Problem Based on an Asymptotic Projection Method: I. Basics -- Alternative Technique for the Constrained Variational Problem Based on an Asymptotic Projection Method: II. Applications to Open-Shell Self-Consistent Field Theory -- SU(m(? 4)) × l20 ? A5 Group Branching Rules Revisited: Inverse Polyhedral Combinatorial Modelling via (?) to {} ? ?SASST Maps -- Gauge-Invariant QED Perturbation Theory Approach to Calculating Nuclear Electric Quadrupole Moments, Hyperfine Structure Constants for Heavy Atoms and Ions -- New Laser-Electron Nuclear Effects in the Nuclear ? Transition Spectra in Atomic and Molecular Systems -- QED Approach to Atoms in a Laser Field: Multi-Photon Resonances and Above Threshold Ionization -- A Collaborative Virtual Environment for Molecular Electronic Structure Theory: A Prototype for the Study of Many-Body Methods.
Abstract:
The basic theory of matter on the nanoscale is quantum mechanics and the application of quantum mechanics to the study of the many-body problem in molecules and materials is a rapidly developing field of research. Frontiers in Quantum Systems in Chemistry and Physics defines the leading edge; hence it describes the new theoretical developments available to a wider audience and presents theories which provide, for example, new insights into the structure of increasing complex molecular systems or molecules in a variety of environments. New computational techniques and practices are accessed, exploiting the wide range of equipment available to the researcher from "leadership" class supercomputers to distributed workstations and the internet. Just as important as the development of new theories and computer algorithms are the new areas of application, the ever expanding list of application areas in which studies at the quantum level are providing valuable insights. Frontiers in Quantum Systems in Chemistry and Physics allows new areas of application to be exposed to a wider audience.
Dil:
English