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Eslinger, P. W.*; Bowyer, T. W.*; Achim, P.*; Chai, T.*; Deconninck, B*; Freeman, K.*; Generoso, S.*; Hayes, P.*; Heidmann, V.*; Hoffman, I.*; et al.
Journal of Environmental Radioactivity, 157, p.41 - 51, 2016/06
Times Cited Count:35 Percentile:72.19(Environmental Sciences)It is very important to understand the impact for CTBT stations caused by radioxenon emitted from nuclear facilities and medical isotope production facilities for detection of underground nuclear tests. Predictions of the impact on the CTBT radionuclide station in Germany of radioxenon emitted from the medical isotope production facility in Belgium were carried out by participants from seven nations using ATM (Atmospheric Transport Modeling) based on the emission data of radioxenon from this facility, as part of study on impact of radioxenon emitted from medical isotope production facilities on CTBT radionuclide stations.
Eidmann, K.*; Kawachi, Tetsuya; Marcinkevicius, A.*; Bartlome, R.*; Tsakiris, G.*; Witte, K.*; Teubner, U.*
Physical Review E, 72(3), p.036413_1 - 036413_9, 2005/09
Times Cited Count:33 Percentile:77.37(Physics, Fluids & Plasmas)In order to clarify the mechanism of high-order harmonics generation from solid target, we investigated the emission from rear side of the foil target irradiated by an intense Ti:S laser pulse, duration of 150 fs. The comparison of the exprimental result with our Particle-in-Cell simulation implies that rear side emission is caused by energetic electron bunches which is generated at the front side by resonance absorption.
