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Published **1989**
by [Kalininskiĭ gos. universitet] in Kalinin .

Written in English

- Nuclear reactions.,
- Electromagnetic interactions.,
- Few-body problem.

**Edition Notes**

Other titles | Teorii͡a︡ kvantovykh sistem s silʹnym vzaimodeĭstviem. |

Statement | [editor, A.M. Gorbatov ... et al.]. |

Contributions | Gorbatov, A. M., Kalininskiĭ gosudarstvennyĭ universitet. |

Classifications | |
---|---|

LC Classifications | QC794.5 .T47 1989 |

The Physical Object | |

Pagination | 139 p. : |

Number of Pages | 139 |

ID Numbers | |

Open Library | OL1774432M |

LC Control Number | 92128646 |

Purchase Quantum Systems in Physics, Chemistry and Biology - Theory, Interpretation and Results, Volume 78 - 1st Edition. Print Book & E-Book. ISBN , Price: $ Electroweak and Strong Interaction: Phenomenology, Concepts, Models, begins with relativistic quantum mechanics and some quantum field theory which lay the foundation for the rest of the text. The phenomenology and the physics of the fundamental interactions are emphasized through a detailed discussion of the empirical fundamentals of unified. The behavior of quantum systems interacting in weak and strong fields and the equations of motion for two- and three-level systems are analyzed. The text also explains the theory of spontaneous and stimulated emission and this theory's association with classical theory. This book approaches condensed matter physics from the perspective of quantum information science, focusing on systems with strong interaction and unconventional order for which the usual condensed matter methods like the Landau paradigm or the free fermion framework break down.

Throughout the text, Professor Bohm places strong emphasis on showing how the quantum theory can be developed in a natural way, starting from the previously existing classical theory and going step by step through the experimental facts and theoretical lines of reasoning which led to replacement of the classical theory by the quantum theory. This book treats the central physical concepts and mathematical techniques used to investigate the dynamics of open quantum systems. To provide a self-contained presentation, the text begins with. This book treats the central physical concepts and mathematical techniques used to investigate the dynamics of open quantum systems. To provide a self-contained presentation the text begins with a survey of classical probability theory and with an introduction into the foundations of quantum mechanics with particular emphasis on its statistical s: This edited, multi-author volume contains selected, peer–reviewed contributions based on the presentations given at the 21th International Workshop on Quantum Systems in Chemistry, Physics, and Biology (QSCP-XXI), held in Vancouver, Canada, in July This book is primarily aimed at scholars, researchers and graduate students working at universities and scientific laboratories and.

This book approaches condensed matter physics from the perspective of quantum information science, focusing on systems with strong interaction and unconventional order for which the usual condensed matter methods like the Landau paradigm or Manufacturer: Springer. The theory which describes strong interactions in the standard model is called quantum chromodynamics, or QCD for short. Although QCD is not tested to the same extent or precision as quantum electrodynamics (QED), it is nevertheless in impressive agreement with a large body of experimental data, and is not contradicted by any known experiment. The book gives a comprehensive, in-depth overview of the available quantum-chemistry methods for intermolecular interactions and details the most relevant fields of application for those techniques. Theory and applications are put side-by-side, which allows the reader to gauge the strengths and weaknesses of different computational techniques. Quantum theory treats Raman or combination scattering of light as a two-stage process. In the first stage, the quantum system absorbs a photon of energy ℏ ω to assume a virtual state. In the second stage, it emits a photon of energy ℏ ω ′ and either returns to the ground state or jumps into an excited state. The energy of the scattered photon may be identical to that of the incident.

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