Search Results for molecular-quantum-electrodynamics

Self-contained, systematic introduction examines application of quantum electrodynamics to interpretation of optical experiments on atoms and molecules and explains the quantum theory of electromagnetic radiation and its interaction with ...

Author: D. P. Craig

Publisher: Courier Corporation

ISBN: 9780486135632

Category: Science

Page: 336

View: 969

Self-contained, systematic introduction examines application of quantum electrodynamics to interpretation of optical experiments on atoms and molecules and explains the quantum theory of electromagnetic radiation and its interaction with matter.
2012-11-13 By D. P. Craig

Long-Range Intermolecular Interactions Akbar Salam. Muto, Y. (1943) Force between nonpolar molecules. J. Phys. Math. Soc. Japan. ... Power, E. A. and Thirunamachandran, T. (1983a) Quantum electrodynamics with nonrelativistic sources.

Author: Akbar Salam

Publisher: John Wiley & Sons

ISBN: 9780470259306

Category: Science

Page: 399

View: 677

The theory of molecular quantum electrodynamics and itsapplication to a number of intermolecular interactions Considerable advances have taken place in quantumelectrodynamical theory of intermolecular forces. Virtuallyimpacting all areas of science, molecular quantum electrodynamics(MQED) has been successfully applied to numerous radiation-moleculeand molecule-molecule processes. Molecular QuantumElectrodynamics delves in depth into the MQED theory oflong-range intermolecular forces, offering a variety of physicalviewpoints and calculational techniques. The text provides an introduction and background on: Field theoretic treatments, including the second quantizedMaxwell field formulation Intermolecular potential and a semi-classical perturbationtheory treatment of short- and long-range forces Retarded dispersion interactions including discriminatoryforces Intermolecular interactions in a radiation field Energy shift and transfer rate in relation to specific two- andmany-body forces Molecular Quantum Electrodynamics provides an essentialresource for chemists, physicists, biophysicists, materialsscientists, and nanochemists interested in exploring the theory andapplication of MQED.
2010 By Akbar Salam

Author: DP. Craig


ISBN: OCLC:985890553



View: 641

1984 By DP. Craig

Cohen-Tannoudji, C.; Dupont-Roc, J.; Grynberg, G. Photons and Atoms: Introduction to Quantum Electrodynamics; Wiley: New York, NY, USA, 1989; pp. xviii, 486. 3. Andrews, D.L.; Craig, D.P.; Thirunamachandran, T. Molecular quantum ...

Author: Roberto Passante

Publisher: MDPI

ISBN: 9783039285242

Category: Science

Page: 162

View: 115

This book collects research and review articles covering some recent trends in nonrelativistic quantum electrodynamics, specifically the interaction of atoms or molecules within the quantum electromagnetic radiation field and the related physical effects. Specific topics covered are: two- and three-body dispersion interactions between atoms and molecules, both in the nonretarded van der Waals and the retarded Casimir–Polder regime; vacuum field fluctuations of the electromagnetic field and their effect in atomic systems; dispersion interactions between uniformly accelerating atoms and relation with the Fulling–Davies–Unruh effect; dynamics of atomic systems under strong electromagnetic fields; symmetries in quantum electrodynamics; and open quantum systems.
2020-04-01 By Roberto Passante

Author: J. S. Ford


ISBN: OCLC:1064582046



View: 186

2015 By J. S. Ford

Author: William Patrick Healy


ISBN: OCLC:926264198


Page: 304

View: 330


Q-branch, 359, 390 QM/MM, 333 Quadratic Stark effect, 252 Quantization boundary conditions, 40 introduced, 2 space, 79 Quantum electrodynamics, 215 Quantum mechanics–molecular mechanics, 333 Quantum number, 5, 21, 78 hydrogenic atom, ...

Author: Peter W. Atkins

Publisher: Oxford University Press

ISBN: 9780199541423

Category: Science

Page: 537

View: 900

This text unravels those fundamental physical principles which explain how all matter behaves. It takes us from the foundations of quantum mechanics, through quantum models of atomic, molecular, and electronic structure, and on to discussions of spectroscopy, and the electronic and magnetic properties of molecules.
2011 By Peter W. Atkins

E. Fermi, “Quantum theory of radiation,” Rev. Mod. Phys. 4, 87–132 (1932). R. G. Woolley, “The electrodynamics of atoms and molecules,” Adv. Chem. Phys. 33, 153–233 (1975). P. W. Milonni, “Semi-classical and quantum electrodynamical ...

Author: David L. Andrews

Publisher: John Wiley & Sons

ISBN: 9781118225530

Category: Technology & Engineering

Page: 472

View: 760

Covers modern photonics accessibly and discusses the basic physical principles underlying all the applications and technology of photonics. This volume covers the basic physical principles underlying the technology and all applications of photonics from statistical optics to quantum optics. The topics discussed in this volume are: Photons in perspective; Coherence and Statistical Optics; Complex Light and Singular Optics; Electrodynamics of Dielectric Media; Fast and slow Light; Holography; Multiphoton Processes; Optical Angular Momentum; Optical Forces, Trapping and Manipulation; Polarization States; Quantum Electrodynamics; Quantum Information and Computing; Quantum Optics; Resonance Energy Transfer; Surface Optics; Ultrafast Pulse Phenomena. Comprehensive and accessible coverage of the whole of modern photonics Emphasizes processes and applications that specifically exploit photon attributes of light Deals with the rapidly advancing area of modern optics Chapters are written by top scientists in their field Written for the graduate level student in physical sciences; Industrial and academic researchers in photonics, graduate students in the area; College lecturers, educators, policymakers, consultants, Scientific and technical libraries, government laboratories, NIH.
2015-02-17 By David L. Andrews

A comprehensive and rigorous intoduction to quantum electrodynamics. • D. P. Craig and T. Thirunamachandran, Molecular Quantum Electrodynamics: An Introduction to Radiation Molecule Interactions (Dover, New York, 1998).

Author: William M R Simpson

Publisher: World Scientific Publishing Company

ISBN: 9789814644778

Category: Science

Page: 276

View: 721

Forces of the Quantum Vacuum presents a number of theoretical approaches to Casimir, van der Waals and Casimir–Polder forces that have been fruitfully employed in mainstream research, and also reviews the experimental evidence for Casimir forces. Beginning with basic ideas in quantum mechanics and building its way to a sophisticated form of macroscopic QED, the book provides an inspiring training manual for graduate students to develop in a natural progression the ideas needed for modern theoretical research on Casimir forces.
2015-03-27 By William M R Simpson

Phys Rev 73:360 London F (1937) The general theory of molecular forces. Trans Faraday Soc 33:8 Feynman RP (1949) The theory of positrons. Phys Rev 76:749 Feynman RP (1949) Space-time approach to quantum electrodynamics.

Author: Akbar Salam

Publisher: Springer

ISBN: 9783319456065

Category: Science

Page: 105

View: 525

This book provides details of the calculation of the interaction between two neutral polarizable atoms or molecules using molecular quantum electrodynamics (QED). To better understand the origin of this force, it briefly outlines molecular QED theory, the well-known van der Waals dispersion potential first evaluated by Casimir and Polder, who accounted for retardation effects. It presents different calculation schemes for the evaluation of the dispersion potential and also discusses energy shifts involving electric quadrupole and octupole moments, along with discriminatory dispersion potentials. Further, it explores in detail non-additive dispersion interaction energies between three-bodies, as well as the effects of higher multipole moment correction terms, and provides results for specific geometries such as collinear and equilateral triangles. Lastly, it computes near and far-zone asymptotic limits for both pair and many-body potentials, with the former shown to agree with less rigorous semi-classical calculations.
2016-09-29 By Akbar Salam