Enhanced production of low energy electrons by alpha particle impact

Enhanced production of low energy electrons by alpha particle impact

Radiation damage to living tissue stems not only from primary ionizing particles but to a substantial fraction from the dissociative attachment of secondary electrons with energies below the ionization threshold. We show that the emission yield of those low energy electrons increases dramatically in...

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Veröffentlicht in:Proceedings of the National Academy of Sciences - PNAS 2011-07, Vol.108 (29), p.11821-11824
Hauptverfasser: Kim, Hong-Keun, Titze, Jasmin, Schöffler, Markus, Trinter, Florian, Waitz, Markus, Voigtsberger, Jörg, Sann, Hendrik, Meckel, Moritz, Stuck, Christian, Lenz, Ute, Odenweller, Matthias, Neumann, Nadine, Schössler, Sven, Ullmann-Pfleger, Klaus, Ulrich, Birte, Fraga, Rui Costa, Petridis, Nikos, Metz, Daniel, Jung, Annika, Grisenti, Robert, Czasch, Achim, Jagutzki, Ottmar, Schmidt, Lothar, Jahnke, Till, Schmidt-Böcking, Horst, Dörner, Reinhard
Format: Artikel
Sprache:eng
Schlagworte:
Alpha Particles
Atoms
Cell Survival - radiation effects
cell viability
Collisions
Dimers
Electron energy
Electrons
Energy
Helium - chemistry
International Statistical Classification of Diseases
Ionization
ionizing radiation
Ions
Neon
Neon - chemistry
Physical Sciences
Radiation
Spectrum Analysis
Tissues
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container_end_page 11824
container_issue 29
container_start_page 11821
container_title Proceedings of the National Academy of Sciences - PNAS
container_volume 108
creator Kim, Hong-Keun
Titze, Jasmin
Schöffler, Markus
Trinter, Florian
Waitz, Markus
Voigtsberger, Jörg
Sann, Hendrik
Meckel, Moritz
Stuck, Christian
Lenz, Ute
Odenweller, Matthias
Neumann, Nadine
Schössler, Sven
Ullmann-Pfleger, Klaus
Ulrich, Birte
Fraga, Rui Costa
Petridis, Nikos
Metz, Daniel
Jung, Annika
Grisenti, Robert
Czasch, Achim
Jagutzki, Ottmar
Schmidt, Lothar
Jahnke, Till
Schmidt-Böcking, Horst
Dörner, Reinhard
description Radiation damage to living tissue stems not only from primary ionizing particles but to a substantial fraction from the dissociative attachment of secondary electrons with energies below the ionization threshold. We show that the emission yield of those low energy electrons increases dramatically in ion-atom collisions depending on whether or not the target atoms are isolated or embedded in an environment. Only when the atom that has been ionized and excited by the primary particle impact is in immediate proximity of another atom is a fragmentation route known as interatomic Coulombic decay (ICD) enabled. This leads to the emission of a low energy electron. Over the past decade ICD was explored in several experiments following photoionization. Most recent results show its observation even in water clusters. Here we show the quantitative role of ICD for the production of low energy electrons by ion impact, thus approaching a scenario closer to that of radiation damage by alpha particles: We choose ion energies on the maximum of the Bragg peak where energy is most efficiently deposited in tissue. We compare the electron production after colliding He⁺ ions on isolated Ne atoms and on Ne dimers (Ne₂). In the latter case the Ne atom impacted is surrounded by a most simple environment already opening ICD as a deexcitation channel. As a consequence, we find a dramatically enhanced low energy electron yield. The results suggest that ICD may have a significant influence on cell survival after exposure to ionizing radiation.
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subjects Alpha Particles
Atoms
Cell Survival - radiation effects
cell viability
Collisions
Dimers
Electron energy
Electrons
Energy
Helium - chemistry
International Statistical Classification of Diseases
Ionization
ionizing radiation
Ions
Neon
Neon - chemistry
Physical Sciences
Radiation
Spectrum Analysis
Tissues
title Enhanced production of low energy electrons by alpha particle impact
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