$K$ -Vacancy Sharing in Near-Symmetric Heavy-Ion Collisions

Publisher Website

26 November 1973

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 31 (22), 1341-1344
https://doi.org/10.1103/physrevlett.31.1341

Abstract

Relative production cross sections for beam (

Z_{1}

) and target (

Z_{2}

)

K

vacancies in heavyion collisions are explained for situations where

Z_{1} ≃ Z_{2}

. Electron promotion creates a vacancy in the

2 p σ

molecular orbital. As the collision partners retreat, the vacancy has a probability

w (v_{1}, Z_{1}, Z_{2}) <~ \frac{1}{2}

to be transferred to the

1 s

level of the higher-

Z

collision partner. With a charge-transfer theory of Demkov, a universal form for

w

is obtained, which is in excellent agreement with all available data for Ni, Br, and I beams over extended target and energy ranges.

This publication has 8 references indexed in Scilit:

Target $Z$ Dependence of Projectile $K α$ X-Ray Production Cross Sections in High-Energy, Heavy-Ion-Atom Collisions
Physical Review Letters, 1973
Inner-Shell Vacancy Production in Ion-Atom Collisions
Reviews of Modern Physics, 1973
Universal Cross Sections for $K$ -Shell Ionization by Heavy Charged Particles. I. Low Particle Velocities
Physical Review A, 1973
Charge Transfer at Large Internuclear Distances: Application to Asymmetric Alkali-Ion-Alkali-Atom Systems
Physical Review A, 1972
X-Ray Fluorescence Yields, Auger, and Coster-Kronig Transition Probabilities
Reviews of Modern Physics, 1972
Extension of the Electron-Promotion Model to Asymmetric Atomic Collisions
Physical Review A, 1972
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Journal of Physics B: Atomic and Molecular Physics, 1972
Interpretation of ${Ar}^{+}$ -Ar Collisions at 50 KeV
Physical Review Letters, 1965

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