Theory of Quantum and Classical Connections in Modeling Atomic Molecular and Electrodynamical Systems

Quantum and Classical Connections in Modeling Atomic, Molecular and Electrodynamic Systems is intended for scientists and graduate students interested in the foundations of quantum mechanics and applied scientists interested in accurate atomic and molecular models. This is a reference to those working in the new field of relativistic optics, in topics related to relativistic interactions between very intense laser beams and particles, and is based on 30 years of research. The novelty of this work consists of accurate connections between the properties of quantum equations and corresponding classical equations used to calculate the energetic values and the symmetry properties of atomic, molecular and electrodynamical systems, as well as offering 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. Features detailed explanations of the theories of atomic and molecular systems, as well as wave properties of stationary atomic and molecular systems Provides periodic solutions of classical equations, semi-classical methods, and theories of systems composed of very intense electromagnetic fields and particles Offers models and methods based on 30 years of research

Produk Detail:

  • Author : Alexandru Popa
  • Publisher : Academic Press
  • Pages : 80 pages
  • ISBN : 0124104681
  • Rating : 4/5 from 21 reviews
CLICK HERE TO GET THIS BOOKTheory of Quantum and Classical Connections in Modeling Atomic Molecular and Electrodynamical Systems

Theory of Quantum and Classical Connections in Modeling Atomic, Molecular and Electrodynamical Systems

Theory of Quantum and Classical Connections in Modeling Atomic, Molecular and Electrodynamical Systems
  • Author : Alexandru Popa
  • Publisher : Academic Press
  • Release : 05 October 2013
GET THIS BOOKTheory of Quantum and Classical Connections in Modeling Atomic, Molecular and Electrodynamical Systems

Quantum and Classical Connections in Modeling Atomic, Molecular and Electrodynamic Systems is intended for scientists and graduate students interested in the foundations of quantum mechanics and applied scientists interested in accurate atomic and molecular models. This is a reference to those working in the new field of relativistic optics, in topics related to relativistic interactions between very intense laser beams and particles, and is based on 30 years of research. The novelty of this work consists of accurate connections between the

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

Applications of Quantum and Classical Connections in Modeling Atomic, Molecular and Electrodynamic Systems
  • Author : Alexandru Popa
  • Publisher : Elsevier
  • Release : 26 November 2013
GET THIS BOOKApplications of Quantum and Classical Connections in Modeling Atomic, Molecular and Electrodynamic Systems

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

Manipulating Quantum Systems

Manipulating Quantum Systems
  • Author : National Academies of Sciences, Engineering, and Medicine,Division on Engineering and Physical Sciences,Board on Physics and Astronomy,Committee on Decadal Assessment and Outlook Report on Atomic, Molecular, and Optical Science
  • Publisher : National Academies Press
  • Release : 14 October 2020
GET THIS BOOKManipulating Quantum Systems

The field of atomic, molecular, and optical (AMO) science underpins many technologies and continues to progress at an exciting pace for both scientific discoveries and technological innovations. AMO physics studies the fundamental building blocks of functioning matter to help advance the understanding of the universe. It is a foundational discipline within the physical sciences, relating to atoms and their constituents, to molecules, and to light at the quantum level. AMO physics combines fundamental research with practical application, coupling fundamental scientific

Elements of Quantum Computing

Elements of Quantum Computing
  • Author : Seiki Akama
  • Publisher : Springer
  • Release : 14 July 2014
GET THIS BOOKElements of Quantum Computing

A quantum computer is a computer based on a computational model which uses quantum mechanics, which is a subfield of physics to study phenomena at the micro level. There has been a growing interest on quantum computing in the 1990's and some quantum computers at the experimental level were recently implemented. Quantum computers enable super-speed computation and can solve some important problems whose solutions were regarded impossible or intractable with traditional computers. This book provides a quick introduction to quantum

Mathematics for Quantum Mechanics

Mathematics for Quantum Mechanics
  • Author : John David Jackson
  • Publisher : Unknown Publisher
  • Release : 10 December 2013
GET THIS BOOKMathematics for Quantum Mechanics

This concise text for advanced undergraduates and graduate students covers eigenvalue problems, orthogonal functions and expansions, the Sturm-Liouville theory and linear operators on functions, and linear vector spaces. 1962 edition.

Controlling the Quantum World

Controlling the Quantum World
  • Author : National Research Council,Division on Engineering and Physical Sciences,Board on Physics and Astronomy,Committee on AMO 2010
  • Publisher : National Academies Press
  • Release : 21 June 2007
GET THIS BOOKControlling the Quantum World

As part of the Physics 2010 decadal survey project, the Department of Energy and the National Science Foundation requested that the National Research Council assess the opportunities, over roughly the next decade, in atomic, molecular, and optical (AMO) science and technology. In particular, the National Research Council was asked to cover the state of AMO science, emphasizing recent accomplishments and identifying new and compelling scientific questions. Controlling the Quantum World, discusses both the roles and challenges for AMO science in instrumentation;