1. A high-power laser-driven source of sub-nanosecond soft X-ray pulses for single-shot radiobiology experiments.
- Author
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Davídková M, Juha L, Bittner M, Koptyaev S, Hájková V, Krása J, Pfeifer M, Stísová V, Bartnik A, Fiedorowicz H, Mikolajczyk J, Ryc L, Pína L, Horváth M, Babánková D, Cihelka J, and Civis S
- Subjects
- Equipment Design, Equipment Failure Analysis, Nanotechnology instrumentation, Nanotechnology methods, Plasmids radiation effects, Radiation Dosage, Radiobiology methods, Research Design, Specimen Handling methods, DNA Damage radiation effects, Lasers, Plasmids chemistry, Radiobiology instrumentation, Research instrumentation, Specimen Handling instrumentation, X-Rays
- Abstract
A large-scale, double-stream gas puff target has been illuminated by sub-kJ, near-infrared (NIR) focused laser pulses at the PALS facility (Prague Asterix Laser System) to produce high-energy pulses of soft X rays from hot, dense plasma. The double-puff arrangement ensures high gas density and conversion efficiency from NIR to X rays approaching that typical for solid targets. In addition, its major advantage over solid targets is that it is free of debris and has substantially suppressed charged-particle emission. The X-ray emission characteristics of the source were determined for a range of gases that included krypton, xenon, N(2), CO and N(2)-CO. A demonstrated application of the xenon-based source is a single-shot damage induction to plasmid DNA. The yields of single-strand breaks (SSBs) and double-strand breaks (DSBs) were determined as a function of energy fluence adjusted by varying distance of sample from the source and thickness of aluminum filters.
- Published
- 2007
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