Electron Impact Ionization
Electron Impact Ionization

Author: T.D. Märk

Publisher: Springer Science & Business Media

Published: 2013-06-29

Total Pages: 395

ISBN-13: 3709140285

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It is perhaps surprising that a process which was one of the first to be studied on an atomic scale, and a process which first received attention over seven decades ago, continues to be the object of diverse and intense research efforts. Such is the case with the (seemingly) conceptually simple and familiar mechanism of electron impact ionization of atoms, molecules, and ions. Not only has the multi-body nature of the collision given ground to theoretical effort only grudgingly, but also the variety and subtlety of processes contributing to ionization have helped insure that progress has come only with commensurate work: no pain - no gain. Modern experimental methods have made it possible to effectively measure and explore threshold laws, differential cross sections, partial cross sections, inner-shell ionization, and the ionization of unstable species such as radicals and ions. In most instances the availability of experimental data has provided impetus and guidance for further theoretical progress.

Physics of Ion-Ion and Electron-Ion Collisions
Physics of Ion-Ion and Electron-Ion Collisions

Author: F. Brouillard

Publisher: Springer Science & Business Media

Published: 2013-11-21

Total Pages: 543

ISBN-13: 1461335450

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Some of the earliest civilizations regarded the universe as organized around four principles, the four "elements" earth. water, air, and fire. Fire, which was the source of light and as such possessed an immaterial quality related to the spiritual world. was clearly the most impressive of these elements, although its quanti tative importance could not have been properly discerned. M- ern science has changed the names, but macroscopic matter is still divided into four states. The solid, liquid, and gaseous states are ordinary states, but the fourth state of matter, the plasma state, has retained a somewhat extraordinary character. It is now recognized that most of the matter of the universe is in the ionized state. but on the earth. the plasma state is still the exception. Hence the importance and also the difficulty of investigations dealing with ionized matter, which have been greatly furthered by the development of thermonuclear fusion research. The study of matter in the ionized state comprises a large diversity of problems belonging to many different branches of phys ics. A number of them relate to the microscopic properties of plasmas and concern the structure and the collisional behavior of atomic constituents. Although they are clearly of basic importance, their relevance to thermonuclear research was at first overlooked, at a time when most of the effort was concentrated on designing fusion devices and understanding macroscopic phenomena, mostly of an electromagnetic nature. At present.

Experimental Study of Excitation and Ionization of Multiply Charged Atom Ions by Electronic Impact
Experimental Study of Excitation and Ionization of Multiply Charged Atom Ions by Electronic Impact

Author: James N. Bradbury

Publisher:

Published: 1972

Total Pages: 48

ISBN-13:

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An experimental investigation of the electron impact excitation and ionization cross sections of N(4+) is described. A Van de Graaff accelerator coupled with a gas stripper was used to produce a beam of 2.7 MeV N(4+) ions which were separated from other charge states by magnetic and electrostatic analysis. The ions were crossed with a variable energy electron beam in a well-defined geometry. Radiation from the excited ions was observed with a photomultiplier downstream from the interaction region. The ions promoted to higher charge states were separated from the primary beam electrostatically and detected with an electron multiplier tube. Results are presented for the N(4+) transition (2s to 2p) in the collision energy range 125-400 eV. (Author).