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Foundations of Molecular Quantum Electrodynamics

Hardback

Main Details

Title Foundations of Molecular Quantum Electrodynamics
Authors and Contributors      By (author) R. Guy Woolley
Physical Properties
Format:Hardback
Pages:550
Dimensions(mm): Height 265,Width 186
Category/GenreAtomic and molecular physics
ISBN/Barcode 9781009225762
ClassificationsDewey:530.1433
Audience
General
Illustrations Worked examples or Exercises

Publishing Details

Publisher Cambridge University Press
Imprint Cambridge University Press
Publication Date 15 September 2022
Publication Country United Kingdom

Description

This book presents a comprehensive account of molecular quantum electrodynamics from the perspectives of physics and theoretical chemistry. The first part of the book establishes the essential concepts underlying classical electrodynamics, using the tools of Lagrangian and Hamiltonian mechanics. The second part focuses on the fundamentals of quantum mechanics, particularly how they relate to, and influence, chemical and molecular processes. The special case of the Coulomb Hamiltonian (including the celebrated Born-Oppenheimer approximation) is given a modern treatment. The final part of the book is devoted to non-relativistic quantum electrodynamics and describes in detail its impact upon our understanding of atoms and molecules, and their interaction with light. Particular attention is paid to the Power-Zienau-Woolley (PZW) representations, and both perturbative and non-perturbative approaches to QED calculation are discussed. This book is ideal for graduate students and researchers in chemical and molecular physics, quantum chemistry, and theoretical chemistry.

Author Biography

R. Guy Woolley is Emeritus Professor of Chemical Physics at Nottingham Trent University. In 1978 he was awarded the Royal Society of Chemistry Marlow Medal, and he was elected Fellow of the American Physical Society in 1995 'for fundamental advances in the proper description of molecules and their interaction with radiation'. He is responsible for the development of the Power-Zienau-Woolley transformation, one of the most widely used methods in molecular quantum electrodynamics.