4 research outputs found
Downramp-assisted underdense photocathode electron bunch generation in plasma wakefield accelerators
It is shown that the requirements for high quality electron bunch generation
and trapping from an underdense photocathode in plasma wakefield accelerators
can be substantially relaxed through localizing it on a plasma density
downramp. This depresses the phase velocity of the accelerating electric field
until the generated electrons are in phase, allowing for trapping in shallow
trapping potentials. As a consequence the underdense photocathode technique is
applicable by a much larger number of accelerator facilities. Furthermore, dark
current generation is effectively suppressed.Comment: 4 pages, 3 figure
A history of high-power laser research and development in the United Kingdom
The first demonstration of laser action in ruby was made in 1960 by T. H. Maiman of Hughes Research Laboratories, USA. Many laboratories worldwide began the search for lasers using different materials, operating at different wavelengths. In the UK, academia, industry and the central laboratories took up the challenge from the earliest days to develop these systems for a broad range of applications. This historical review looks at the contribution the UK has made to the advancement of the technology, the development of systems and components and their exploitation over the last 60 years
An experimental study of focused very high energy electron beams for radiotherapy
Abstract Very high energy electron (VHEE) beams have been proposed as an alternative radiotherapy modality to megavoltage photons; they penetrate deeply without significant scattering in inhomogeneous tissue because of their high relativistic inertia. However, the depth dose distribution of a single, collimated VHEE beam is quasi-uniform, which can lead to healthy tissue being overexposed. This can be largely overcome by focusing the VHEE beam to a small spot. Here, we present experiments to demonstrate focusing as a means of concentrating dose into small volumetric elements inside a target. We find good agreement between measured dose distributions and Monte Carlo simulations. Focused radiation beams could be used to precisely target tumours or hypoxic regions of a tumour, which would enhance the efficacy of radiotherapy. The development of new accelerator technologies may provide future compact systems for delivering these focused beams to tumours, a concept that can also be extended to X-rays and hadrons
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Downramp-assisted underdense photocathode electron bunch generation in plasma wakefield accelerators
It is shown that the requirements for high quality electron bunch generation
and trapping from an underdense photocathode in plasma wakefield accelerators
can be substantially relaxed through localizing it on a plasma density
downramp. This depresses the phase velocity of the accelerating electric field
until the generated electrons are in phase, allowing for trapping in shallow
trapping potentials. As a consequence the underdense photocathode technique is
applicable by a much larger number of accelerator facilities. Furthermore, dark
current generation is effectively suppressed