1 edition of **Theory of Slow Atomic Collisions** found in the catalog.

- 128 Want to read
- 36 Currently reading

Published
**1984** by Springer Berlin Heidelberg in Berlin, Heidelberg .

Written in English

- Physics

**Edition Notes**

Statement | by Evgenii E. Nikitin, Stanislav Ya. Umanskii |

Series | Springer Series in Chemical Physics -- 30, Springer series in chemical physics -- 30. |

Contributions | Umanskii, Stanislav Ya |

Classifications | |
---|---|

LC Classifications | QC170-197, QC717.6-718.8 |

The Physical Object | |

Format | [electronic resource] / |

Pagination | 1 online resource. |

ID Numbers | |

Open Library | OL27091796M |

ISBN 10 | 364282045X |

ISBN 10 | 9783642820458 |

OCLC/WorldCa | 858930999 |

Collision theory states that when suitable particles of the reactant hit each other, only a certain fraction of the collisions cause any noticeable or significant chemical change; these successful changes are called successful collisions. The successful collisions must have enough energy, also known as activation energy, at the moment of impact to break the pre-existing bonds and . @article{osti_, title = {A QUALITATIVE INTERPRETATION OF THE MEAN ELECTRON EXCITATION ENERGY IN ATOMIC COLLISIONS}, author = {Firsov, O B}, abstractNote = {Transformation of the kinetic energy of relative motion of colliding particles into electron excitation energy is interpreted as being the result of their deceleration caused by electron exchange. Atomic collisions offer some unique opportunities to study atomic structure and reaction mechanisms in experiment and theory, especially for projectiles of high atomic number provided by modern accelerators. The book is meant as an introduction in. "The Theory of Atomic Collisions by Mott, N. F.; Massey, H. S. W. A copy that has been read, but remains in excellent condition. Pages are intact and are not marred by notes or highlighting, but may contain a neat previous owner name.

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Research on the theory of slow atomic collisions carried out at the Moscow Institute of Chemical Physics has been based on just these ideas. A general viewpoint concerning the setting up and representation of the theory came out of these studies, and appeared to be useful in studying complicated systems as well.

This item: Theory of Slow Atomic Collisions (Springer Series in Chemical Physics) Set up a giveaway. Get fast, free delivery with Amazon Prime. Prime members enjoy FREE Two-Day Delivery and exclusive access to music, movies, TV shows, original audio series, and Kindle by: The theory of atom-molecule collisions is one of the basic fields in chemi cal physics.

Its most challenging part - the dynamics of chemical reactions - is as yet unresolved, but is developing very quickly. It is here a great help to have an analysis of those parts of collision theory which are already complete. The theory presented in this book is self-contained.

It can be applied to the interpretation of various processes occurring in atomic collisions over a relatively wide energy range, from thermal energies to hundreds of by: Theory of Slow Atomic Collisions: Open Problems, New Trends. Abstract. This paper is not a review paper on slow atomic collisions.

The field is a wide one, many review papers already exist, together with an excellent book written by E.E. Nikitin and Umanski ().Author: Françoise Masnou-Seeuws. Theory of Atomic Collisions Hardcover – April 1, by N. Mott (Author), H.

Massey (Author) out of 5 stars 3 ratings. See all 7 formats and editions Hide other formats and editions. Price New from Used from Hardcover "Please retry" $ $ $ Cited by: Abstract.

A theory of zero-order elastic and first-order inelastic scattering for slow atomic collisions in the system H 2 + is presented. The method of stationary states and partial wave analysis is used and is the first such treatment which meets Theory of Slow Atomic Collisions book formal requirement of scattering theory that the zero-order Theory of Slow Atomic Collisions book become correct eigenfunctions at R→∞; the.

A theory of zero‐order elastic and first‐order inelastic scattering for slow atomic collisions in the system H2+ is presented.

The method of stationary states and Cited by: It is split into two volumes, with Volume I describing various aspects of the one-body collision problem, and Volume II covering many-body problems and applications of the theory to electron collisions with atoms, collisions between atomic systems, and nuclear collisions, as well as certain aspects of two-body collisions under relativistic conditions and the use of time-dependent perturbation theory.

The chapter discusses analog to ion–atom collisions. Collisions of low-energy antiprotons with matter occupy a unique place in atomic reaction studies.

The chapter also studies the formation of antiprotonic helium. When a slow antiproton collides with a hydrogen atom, there are only two reaction channels open. Addeddate Identifier Identifier-ark ark://t6hp43 Ocr ABBYY FineReader Ppi Scanner Internet Archive Python library dev4.

Topics in Atomic Collision Theory originated in a course of graduate lectures given at the University of Colorado and at University College in London. It is recommended for students in physics and related fields who are interested in the application of quantum scattering theory to low-energy atomic collision Edition: 1.

General Theory of Atomic Collisions - the Many-State Problem and the Generalized Matrix ; General Theory of Atomic Collisions - Re-arrangement Collision ; Collisions of Fast Electrons with Atoms ; Scattering of Low energy Electrons and Positrons by Hydrogen Atoms ; Scattering of Slow Electrons and Positrons by Complex Atoms.

Relativistic Atomic Collisions is the first comprehensive treatise of relativistic atomic collision physics. Written by world-renowned experts in the field, the book covers both the theoretical and experimentalaspects of the subject.

Part I of the book provides coverage of relativistic electron theory and of the relativistic treatment of collisions.

Atomic Collisions: The Theory of Electron-Atom Collision | V. Veldre | download | B–OK. Download books for free. Find books. Theory of Slow Atomic Collisions.

The theory of atom-molecule collisions is one of the basic fields in chemi cal physics. Its most challenging part - the dynamics of chemical reactions - is as yet unresolved, but is developing very quickly. General Formulation of Scattering Problem Under Quasi-Classical Conditions.- Scattering Amplitudes and Cross Sections.- Representations of Amplitudes and Cross Sections Scattering Amplitudes and Cross Sections Under Quasi-Classical Conditions.- Scattering Equations.- Atomic Basis.- Molecular Basis.- Collisions of Two Many-Electron.

Abstract: We present a multichannel quantum-defect theory for slow atomic collisions that takes advantages of the analytic solutions for the long-range potential, and both the energy and the angular-momentum insensitivities of the short-range parameters.

The theory provides an accurate and complete account of scattering processes, including shape and Feshbach resonances, in Cited by: Although it is true that the discussion on the choice of the ETFs is not settled yet, it is possible to adopt "simple" ETFs to satisfy (at least) the correct scattering boundary condi- tions in atomic collision problems.

As a starting point, we have used a semiclassical theory of slow ion-atom collisions [17].Author: M. Kimura, R.E. Olson. Deals with elastic, inelastic and reactive collisions between heavy particles. The impact energy range extends from sub-thermal to energies at which nuclear forces become significant.

Although the focus is on experiment, theory is integrated with experimental discussions. Scattering resonances, beam monochromators, particle detectors, coincidence measurements and laser.

Commencing with a self-contained overview of atomic collision theory, this monograph presents recent developments of R-matrix theory and its applications to a wide-range of atomic molecular and optical processes. These developments include the electron and photon collisions with atoms, ions andBrand: Springer-Verlag Berlin Heidelberg.

NIKITIN LIST OF PUBLICATIONS BOOKS 1. Nikitin, Current Theories of Thermal Decomposition and Isomerisation of Molecules in Gas : Nauka,p. (in Russian). English Edition: Theory of Thermally Induced Gas Phase Reactions. Bloomington & London: Indiana University Press,p. We present a multichannel quantum-defect theory for slow atomic collisions that takes advantages of the analytic solutions for the long-range potential, and both the energy and the angular-momentum insensitivities of the short-range parameters.

Janev R.K. () Theory of Charge Exchange and Ionization in Ion-Atom (Ion) Collisions. In: Brouillard F.

(eds) Atomic Processes in Electron-Ion and Ion-Ion Collisions. NATO ASI Series (Series B: Physics), vol Author: R. Janev. Title: Theory of Electronic Transitions in Slow Atomic Collisions: Authors: Heinrichs, Jean: Affiliation: AA(Department of Physics, University of California, San Diego, La Jolla, California).

It was very recently shown [11, 12] that 2CPI and 2CDR can be quite effective also in a dynamical environment of atomic collisions. Following these works, in the present paper we study ICEC in slow collisions between A and B (see figure 1). The main goals of the paper are two-fold.

The Theory of Atomic Collisions By N.F. Mott & H.S.W. Massey (The International Series of Monographs on Physics) by N.F. Mott, H.S.W. Massey and a great selection of related books, art and collectibles available now at §4 Atomic Collisions with Multielectron Targets 10 cation of scattering theory to solve problems in fast and slow collisions of atoms, ions and molecules.

In discussing atomic scattering theory, it is impos- Fast and Slow Collisions of Ions. We present a multichannel quantum-defect theory for slow atomic collisions that takes advantages of the analytic solutions for the long-range potential, and both the energy and the angular.

The relaxation rates of Ne//2** plus molecular ions in collisions with electrons and neon atoms are found by analyzing the spectral line intensities for certain transitions for atomic neon as a. About this book Introduction Until recently, the field of atomic and molecular collisions was left to a handful of practitioners who essentially explored it as a branch of atomic physics and gathered their experimental re sults mainly from spectroscopy measurements in bulk.

Abstract We present a multichannel quantum-defect theory for slow atomic collisions that takes advantages of the analytic solutions for the long-range potential, and both the energy and the angular-momentum insensitivities of the short-range by: Multichannel quantum-defect theory for slow atomic collisions Bo Gao,1,* Eite Tiesinga,2 Carl J.

Williams,2 and Paul S. Julienne2 1Department of Physics and Astronomy, University of Toledo, Toledo, OhioUSA 2Atomic Physics Division, National Institute of Standards and Technology, Gaithersburg, MarylandUSA Received 8 August ; published 28. Atomic Processes in Basic and Applied Physics, Springer Series on Atomic, Optical, and Plasma Physics, Volume The work is devoted to studies of ion-pair formation and resonant-quenching processes in slow collisions between the highly excited atoms and the ground-state atoms with small electron affinities.

The theory developed. collision theory[kə′lizhən ‚thēərē] (physical chemistry) Theory of chemical reaction proposing that the rate of product formation is equal to the number of reactant-molecule collisions multiplied by a factor that corrects for low-energy-level collisions.

(quantum mechanics) Theory to describe collisions of simple or complex particles, the. The theory of atomic collisions by Mott, N. Sir,Clarendon Press, Oxford University Press edition, in English - 3rd ed. The electron capture process X q+-H to X (q-1)+-H + is considered at intermediate-low velocities in a simple atomic collision model with quantum-defect wavefunctions for the final states of the captured electron.

Electron translation factors are included in a consistent first-order approximation which allows a factorisation of the trajectory parameters in the coupling by: Atomic collisions offer some unique opportunities to study atomic structure and reaction mechanisms in experiment and theory, especially for projectiles of high atomic number provided by modern accelerators.

The book is meant as an introduction into the field and provides some basic theoretical understanding of the atomic processes occurring when a projectile hits.

A classical phase‐space theory for the excitation of electrons in slow atomic collisions is presented. An equation which governs the energy transfer between the electron and the heavy particles is derived for slow collisions (adiabatic approximation). This equation is analogous to the first law of thermodynamics for an open system.

The theory contains only one adjustable Cited by: 9. References I.E. McCarthy, E. Weigold, Electron–Atom Collisions (Cambridge University Press, Cambridge, ) T.F. O’Malley, Phys. Rev.( File Size: 1MB. SEMI-CLASSICAL THEORY OF ELECTRONIC EXCITATION RATES Park's book 6 were used to calculate the n.r products given by Eq.(7).

The results for N atom relaxation are shown in Fig.(1) and However, for the atomic collisions a deep attractive well occurs when the electron spins of the outer electrons of the colliding atoms happen to pair; then.International Workshop on Atomic Collisions and Atomic Spectroscopy with Slow Antiprotons (pbar99) Book of Abstract JulyIntroduction of antiprotons as projectiles in a heavy particle atomic collision process in both theory and experiment has yielded new and exciting physics by creating new [email protected]{osti_, title = {Asymptotic methods in the theory of atomic collisions; Asimptoticheskie metody v teorii atomnykh stolknovenii}, author = {Smirnov, B.M.}, abstractNote = {The book consists of two parts.

The first part deals with the interaction potentials of atomic particle at large distances between the particles. The cases under discussion include the .