Conveners
TUBN: Novel Particle Sources and Acceleration Techniques (Contributed)
- Evgenya Simakov (Los Alamos National Laboratory)
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Sarah Weatherly (Illinois Institute of Technology)21/05/2024, 11:30MC3.A16 Advanced ConceptsContributed Oral Presentation
A Dielectric Disk Accelerator (DDA) is a metallic accelerating structure loaded with dielectric disks to increase its shunt impedance. These structures use short RF pulses of 9 ns to achieve accelerating gradients of more than 100 MV/m. Single cell and multicell clamped structures have been designed and high power tested at the Argonne Wakefield Accelerator. During testing, the single cell...
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Matthias Fuchs (Karlsruhe Institute of Technology)21/05/2024, 11:50MC3.A15 New Acceleration TechniquesContributed Oral Presentation
Most current laser-plasma accelerators (LPAs) require driver lasers with relativistic intensities and pulse durations that are significantly shorter than the plasma wavelengths. This severely limits the laser technology that can be used to drive LPAs and with that their wide spread and the currently achievable LPA parameters, such as repetition rate and accelerating gradient. Here, we report a...
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Davide Terzani (Lawrence Berkeley National Laboratory)21/05/2024, 12:10MC3.A22 Plasma Wakefield AccelerationContributed Oral Presentation
The viability of next generation, compact, TeV-class electron-positron colliders based on staging of independently-powered plasma-based accelerators relies on the possibility of accelerating high-charge bunches to high energy with high efficiency and high accelerating gradient, while maintaining a small energy spread and emittance. Achieving a small energy spread with high-efficiency requires...
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