Journal ArticleDOI
6.0 MeV u -1 carbon ion (C 6+ and C 4+ )-induced secondary electron emission from water vapor
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TLDR
In this article, the authors measured absolute double differential cross sections (DDCSs) for secondary electron emission produced in collisions of 6.0 MeV u−1 C6+ and C4+ ions with water vapor.Abstract:
We have precisely measured absolute double differential cross sections (DDCSs) for secondary electron emission produced in collisions of 6.0 MeV u−1 C6+ and C4+ ions with water vapor. Theoretical calculations of the DDCSs were made for C6+ ions using the continuum distorted wave-eikonal initial state model (CDW-EIS) in its straight-line version of the impact parameter approximation, showing general good agreement with experimental data, except in the intermediate- and high-energy region (> 50 eV), particularly at the backward angles (> 110°). On the other hand, the single differential cross section (SDCS), which was obtained by integrating the measured DDCSs over the solid angle, showed fairly good agreement with the CDW-EIS in the low-energy region (< 200 eV), while a significant discrepancy between the observed SDCS and the Rudd-model scaling (× 36) can be seen, suggesting that a simple Z2-scaling law (i.e. first Born approximation) is not applicable for high-Z bare projectiles such as C6+ ions. The SDCS of C4+ ions was observed to be smaller than that of C6+ ions by ~ 50% in the low-energy region (< 200 eV) due to the screening effect of its bound electrons in C4+ ions, which could be explained quantitatively by taking account of an effective projectile charge.read more
Citations
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Journal ArticleDOI
Electron capture by swift ions from molecules of biological interest
TL;DR: In this paper, a detailed analysis on the contributions coming from different molecular orbitals to total cross sections (TCS) are discriminated as well as those of capture to fundamental and excited projectile states.
Journal ArticleDOI
Simulation study of radial dose due to the irradiation of a swift heavy ion aiming to advance the treatment planning system for heavy particle cancer therapy: The effect of emission angles of secondary electrons
TL;DR: In this paper, a radial dose simulation model has been proposed in order to advance the treatment planning system for heavy particle cancer therapy, where the radial dose is the dose due to the irradiation of a heavy ion as a function of distances from this ion path.
Journal ArticleDOI
Nonperturbative scaling behavior for net ionization of biologically relevant molecules by multiply charged heavy-ion impact
TL;DR: In this article, the authors used the two-center basis generator method (TC-BGM) to compute the atomic net ionization cross sections, which were then used to assemble two models for ion-molecule collisions: an independent-atom model (IAM) that follows the Bragg additivity rule (labeled IAM-AR), and also the so-called pixel-counting method(IAM-PCM).
Journal ArticleDOI
Effect of the track potential on the motion and energy flow of secondary electrons created from heavy-ion irradiation
TL;DR: In this article, the authors evaluated the effect of the track potential on the motion and energy flow of secondary electrons, with the goal of determining the spatial distribution of energy deposition due to irradiation with heavy ions.
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Effect of Track Potentials on the Movement of Secondary Electrons due to Irradiation of Heavy Ions
TL;DR: In this paper, the effect of positive nuclear track potentials on the motion of secondary electrons due to heavy ion irradiation using a simulation model was quantitatively discussed, and it was shown that the effect was mainly determined by τ.
References
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Journal ArticleDOI
A theoretical model for ionisation in ion-atom collisions. Application for the impact of multicharged projectiles on helium
TL;DR: In this paper, the continuum-distorted-wave-eikonal-initial-state model is extended to describe single-electron ionisation by impact of bare projectiles on multielectronic targets.
Journal ArticleDOI
Collision processes involving heavy many-electron ions interacting with neutral atoms
TL;DR: An overview of experimental data and theoretical computational methods for effective cross sections of charge exchange (electron capture) and electron loss (projectile ionization) processes involving heavy many-electron ions (like Xe qa,P b qa, W qa and U qa ) colliding with neutral atoms (H, He, N, Ne, Ar, Kr, Xe) in the E 10 keV/u-10 GeV/U energy range, i.e., from low up to relativistic energies as mentioned in this paper.
Journal ArticleDOI
Theoretical and experimental investigations of electron emission in C6+ + H2O collisions
TL;DR: Theoretical differential and total cross sections for the direct ionization process of water vapour by 6 MeV/u C6+ ions are compared to new experimental measurements performed by the dedicated apparatus already used for measuring the energy and angular distributions of secondary electrons emitted from water vapours by fast heavy-ion impact as mentioned in this paper.
Journal ArticleDOI
Theoretical and experimental investigations of electron emission in He 2 + + H 2 O collisions
TL;DR: In this paper, Ohsawa et al. presented a new experimental apparatus for measuring doubly differential cross sections of electron emission from water vapor with fast heavy-ion impact (6-25 MeV).
Journal ArticleDOI
Theoretical calculation of electronic stopping power of water vapor by proton impact.
TL;DR: The energy loss of proton beams in water vapor is analyzed with a full quantum-mechanical treatment, the distorted-wave model, which takes into account distortion effects due to the long-range Coulomb potential.
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