Ionization, charge exchange, and excitation in F + Ar and F + Kr collisions

Forrest Hopkins; Rudiger Brenn; Anthony R. Whittemore; Nelson Cue; Vince Dutkiewicz; R. P. Chaturvedi

doi:10.1103/PhysRevA.13.74

Ionization, charge exchange, and excitation in F + Ar and F + Kr collisions

Forrest Hopkins^*, Rudiger Brenn, Anthony R. Whittemore, Nelson Cue, Vince Dutkiewicz, R. P. Chaturvedi

^*Corresponding author for this work

Research output: Contribution to journal › Journal Article › peer-review

46 Citations (Scopus)

Abstract

We have measured projectile and target x-ray cross sections for F + Ar and F + Kr collisions using fluorine beams of charge states 7 +, 8 +, and 9+ with energies from 20 to 76 MeV. Pronounced enhancements for the Ar K and Kr L vacancy cross sections using F9+ ions compared to those for the 7+ projectile can be explained by charge exchange as described by an empirically scaled Brinkman-Kramers theory. The Ar L, Kr K and Kr M cross sections are found to exhibit features expected for Coulomb ionization. The projectile K x-ray production for the 9+ ion is accounted for by charge exchange processes. Predictions of the first Born approximation for direct single-step excitation to bound states by the target nucleus overestimate the observed cross sections for F7+ and F8+.

Original language	English
Pages (from-to)	74-85
Number of pages	12
Journal	Physical Review A - Atomic, Molecular, and Optical Physics
Volume	13
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevA.13.74
Publication status	Published - 1976
Externally published	Yes

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title = "Ionization, charge exchange, and excitation in F + Ar and F + Kr collisions",

abstract = "We have measured projectile and target x-ray cross sections for F + Ar and F + Kr collisions using fluorine beams of charge states 7 +, 8 +, and 9+ with energies from 20 to 76 MeV. Pronounced enhancements for the Ar K and Kr L vacancy cross sections using F9+ ions compared to those for the 7+ projectile can be explained by charge exchange as described by an empirically scaled Brinkman-Kramers theory. The Ar L, Kr K and Kr M cross sections are found to exhibit features expected for Coulomb ionization. The projectile K x-ray production for the 9+ ion is accounted for by charge exchange processes. Predictions of the first Born approximation for direct single-step excitation to bound states by the target nucleus overestimate the observed cross sections for F7+ and F8+.",

author = "Forrest Hopkins and Rudiger Brenn and Whittemore, \{Anthony R.\} and Nelson Cue and Vince Dutkiewicz and Chaturvedi, \{R. P.\}",

year = "1976",

doi = "10.1103/PhysRevA.13.74",

language = "English",

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T1 - Ionization, charge exchange, and excitation in F + Ar and F + Kr collisions

AU - Hopkins, Forrest

AU - Brenn, Rudiger

AU - Whittemore, Anthony R.

AU - Cue, Nelson

AU - Dutkiewicz, Vince

AU - Chaturvedi, R. P.

PY - 1976

Y1 - 1976

N2 - We have measured projectile and target x-ray cross sections for F + Ar and F + Kr collisions using fluorine beams of charge states 7 +, 8 +, and 9+ with energies from 20 to 76 MeV. Pronounced enhancements for the Ar K and Kr L vacancy cross sections using F9+ ions compared to those for the 7+ projectile can be explained by charge exchange as described by an empirically scaled Brinkman-Kramers theory. The Ar L, Kr K and Kr M cross sections are found to exhibit features expected for Coulomb ionization. The projectile K x-ray production for the 9+ ion is accounted for by charge exchange processes. Predictions of the first Born approximation for direct single-step excitation to bound states by the target nucleus overestimate the observed cross sections for F7+ and F8+.

AB - We have measured projectile and target x-ray cross sections for F + Ar and F + Kr collisions using fluorine beams of charge states 7 +, 8 +, and 9+ with energies from 20 to 76 MeV. Pronounced enhancements for the Ar K and Kr L vacancy cross sections using F9+ ions compared to those for the 7+ projectile can be explained by charge exchange as described by an empirically scaled Brinkman-Kramers theory. The Ar L, Kr K and Kr M cross sections are found to exhibit features expected for Coulomb ionization. The projectile K x-ray production for the 9+ ion is accounted for by charge exchange processes. Predictions of the first Born approximation for direct single-step excitation to bound states by the target nucleus overestimate the observed cross sections for F7+ and F8+.

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U2 - 10.1103/PhysRevA.13.74

DO - 10.1103/PhysRevA.13.74

M3 - Journal Article

AN - SCOPUS:0343012678

SN - 1050-2947

VL - 13

SP - 74

EP - 85

JO - Physical Review A - Atomic, Molecular, and Optical Physics

JF - Physical Review A - Atomic, Molecular, and Optical Physics

IS - 1

ER -

Ionization, charge exchange, and excitation in F + Ar and F + Kr collisions

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