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Applications of Quantum and Classical Connections in Modeling Atomic, Molecular and Electrodynamic Systems

The book offers applications using methods for calculating the symmetry properties and the energetic values of systems and the calculation of properties of high harmonics in interactions between very intense electromagnetic fields and electrons.

Alexandru Popa (Author)

9780124173187, Elsevier Science

Paperback, published 22 November 2013

142 pages
22.9 x 15.1 x 1.1 cm, 0.2 kg

"Having reviewed and synthesized his theoretical work in a companion volume, Popa here presents the applications of the theory to modeling the properties of atomic, molecular, and electrodynamic systems. For atomic and molecular systems, his calculation is based on the fact that the wave function and geometric elements of the wave described by the Schrödinger equation are mathematical objects that describe the same physical system and depend on its constants of motion." --ProtoView.com, February 2014

Applications of Quantum and Classical Connections in Modeling Atomic, Molecular and Electrodynamical Systems is a reference on the new field of relativistic optics, examining topics related to relativistic interactions between very intense laser beams and particles. Based on 30 years of research, this unique book connects the properties of quantum equations to corresponding classical equations used to calculate the energetic values and the symmetry properties of atomic, molecular and electrodynamical systems. In addition, it examines applications for these methods, and for the calculation of properties of high harmonics in interactions between very intense electromagnetic fields and electrons.

This resource is the only one of its kind, a valuable tool for scientists and graduate students interested in the foundations of quantum mechanics, as well as applied scientists interested in accurate atomic and molecular models.

1. Bohr-type model for atomic systems2. Bohr-type model for molecular systems3. Modeling properties of harmonics generated by relativistic interactions between very intense electromagnetic beams and electronsAnnex. Mathematica programs

Subject Areas: Atomic & molecular physics [PHM], Optical physics [PHJ]

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