Doubly and Triply Differential Cross Sections for Single Ionization of He by Fast Au53+ Using a Multi-Body Quasiclassical Model

Frémont, F.

doi:10.3390/atoms8020019

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Theoretical Ddcs Using Electron Projectiles1

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2021

2022

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Cited by 2 publications

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“…In a second step, improvements of the previous model were performed. Instead of considering free convoy electrons, Coulombic interactions between these electrons and Au 53+ were considered [24]. Nevertheless, to simplify the problem, the individual interactions between the electrons were neglected, and the presence of B was not considered in the Hamiltonian equations.…”

Section: Theoretical Ddcs Using Electron Projectilesmentioning

confidence: 99%

Classical Treatment of Aq+ + He Collisions

Frémont

2021

Springer Series on Atomic, Optical, and Plasma Physics

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Section: Theoretical Ddcs Using Electron Projectilesmentioning

confidence: 99%

Classical Treatment of Aq+ + He Collisions

Frémont

2021

Springer Series on Atomic, Optical, and Plasma Physics

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Charge transfer in collisions of H+, Li3+, Be4+ and O7+ ions with He atom based on 4-classical trajectory Monte Carlo method

Li¹,

Zhang²,

Jiao³

et al. 2022

Acta Phys. Sin.

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The classical trajectory Monte Carlo (CTMC) method is a common method to study the charge-transfer and impact-ionization cross sections for the collisions between ions and atoms, and the heavy particle collision in astrophysics and laboratory plasma environment. Here in this work, we use the 4-CTMC method to study a four-body collision process including two bound electrons, and the Hamiltonian equation of the four-body dynamic system is solved numerically. The single/double electron ionization and capture cross sections are calculated for collisions of high charge state ions (Li3+, Be4+ and O7+) with helium atom in a wide range of projectile energy. The calculation results show that the results from the 4-CTMC method and the experimental measurements are in better agreement in a projectile energy range of 50–200 keV/amu for proton-helium collision system. In addition, for incident ions with high charge state, the results calculated by the 4-CTMC method are in better agreement with the experimental measurements or other theoretical values in a projectile energy range of 100–500 keV/amu. Though the double ionization and capture cross sections calculated by 4-CTMC or 3-CTMC method are higher than the experimental results due to ignoring the electron correlation, the results from the 4-CTMC method are in better agreement with the experimental results.

show abstract

Doubly and Triply Differential Cross Sections for Single Ionization of He by Fast Au53+ Using a Multi-Body Quasiclassical Model

Cited by 2 publications

References 23 publications

Classical Treatment of Aq+ + He Collisions

Classical Treatment of Aq+ + He Collisions

Charge transfer in collisions of H<sup>+</sup>, Li<sup>3+</sup>, Be<sup>4+</sup> and O<sup>7+</sup> ions with He atom based on 4-classical trajectory Monte Carlo method

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