Electron Emission from Amorphous Solid Water Induced by Passage of Energetic Protons and Fluorine Ions

Electron Emission from Amorphous Solid Water Induced by Passage of Energetic Protons and Fluorine Ions

Absolute doubly differential electron emission yields were measured from thin films of amorphous solid water (ASW) after the transmission of 6 MeV protons and 19 MeV (1 MeV/nucleon) fluorine ions. The ASW films were frozen on thin (1-µm) copper foils cooled to approximately 50 K. Electrons emitted f...

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Bibliographic Details
Published in:Radiation research Vol. 174; no. 1; pp. 107 - 118
Main Authors: Toburen, L. H., McLawhorn, S. L., McLawhorn, R. A., Carnes, K. D., Dingfelder, M., Shinpaugh, J. L.
Format: Journal Article
Language:English
Published: PO Box 7050, Lawrence, KS 66044-8897 Radiation Research Society 01-07-2010
Subjects:
Copper
DNA damage
Electron emission
Electron energy
Electrons
Emission spectra
Energy
Film thickness
Fluorine
Fluorine - chemistry
Foils
Frozen
Ions
Monte Carlo methods
Nucleons
Protons
REGULAR ARTICLES
Water - chemistry
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Summary:Absolute doubly differential electron emission yields were measured from thin films of amorphous solid water (ASW) after the transmission of 6 MeV protons and 19 MeV (1 MeV/nucleon) fluorine ions. The ASW films were frozen on thin (1-µm) copper foils cooled to approximately 50 K. Electrons emitted from the films were detected as a function of angle in both the forward and backward direction and as a function of the film thickness. Electron energies were determined by measuring the ejected electron time of flight, a technique that optimizes the accuracy of measuring low-energy electron yields, where the effects of molecular environment on electron transport are expected to be most evident. Relative electron emission yields were normalized to an absolute scale by comparison of the integrated total yields for proton-induced electron emission from the copper substrate to values published previously. The absolute doubly differential yields from ASW are presented along with integrated values, providing single differential and total electron emission yields. These data may provide benchmark tests of Monte Carlo track structure codes commonly used for assessing the effects of radiation quality on biological effectiveness.
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ISSN:0033-7587
1938-5404
DOI:10.1667/RR1984A.1