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München 2019 – scientific programme

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AKBP: Arbeitskreis Beschleunigerphysik

AKBP 8: New Accelerator Concepts

AKBP 8.5: Talk

Tuesday, March 19, 2019, 17:30–17:45, HS 8

Optimization of ionization injection in laser wakefield acceleration — •Philipp Messner1,2, Lars Hübner3, Sören Jalas1, Manuel Kirchen1, Vincent Leroux3, Matthias Schnepp1, Paul Winkler3, and Andreas R. Maier11Center for Free-Electron Laser Science & Department of Physics, Hamburg University, Hamburg, Germany — 2International Max Planck Research School for Ultrafast Imaging and Structural Dynamics, Hamburg, Germany — 3Deutsches Elektronen-Synchrotron DESY, Hamburg, Germany

Laser-plasma accelerators are capable to produce GeV beam energies over only a few centimeter, making them interesting as driver for compact light sources. However, electron beam parameters have to be matched to the beam optics. Online tunability of energy, energy spread and charge are therefore mandatory for efficient electron beam transport. Controlling the injection mechanism of the electrons into the wakefield is one promising way to optimize these parameters. Here, we present the influence of the dopant concentration on electron beams generated with ionization injection. Using the 200 TW peak power laser system ANGUS at the LUX facility in Hamburg, we accelerated electron beams up to a few hundred MeVs in a gas mixture of nitrogen and hydrogen. We precisely scanned the nitrogen concentration online between 0.1 and 5% while keeping the background plasma density forming the wakefield constant. Changes in beam properties can therefore directly be related to the injection mechanism. We found that the amount of trapped charge is increased significantly for larger nitrogen concentrations, while energy gain is reduced.

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