F. Wojda scite author profile

F. Wojda

3Publications

104Citation Statements Received

82Citation Statements Given

How they've been cited

124

103

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Affiliations

Lund University, Laboratoire de Physique des Gaz et des Plasmas, University of Paris-Sud

Publications

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Controlling the spectrum of x-rays generated in a laser-plasma accelerator by tailoring the laser wavefront

Mangles

Genoud

Kneip

et al. 2009

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By tailoring the wavefront of the laser pulse used in a laser-wakefield accelerator, we show that the properties of the x-rays produced due to the electron beam's betatron oscillations in the plasma can be controlled. By creating a wavefront with coma, we find that the critical energy of the synchrotron-like x-ray spectrum can be significantly increased. The coma does not substantially change the energy of the electron beam, but does increase its divergence and produces an energydependent exit angle, indicating that changes in the x-ray spectrum are due to an increase in the electron beams oscillation amplitude within the wakefield.

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Laser wakefield acceleration using wire produced double density ramps

Burza

Gonoskov

Svensson

et al. 2013

Phys. Rev. ST Accel. Beams

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A novel approach to implement and control electron injection into the accelerating phase of a laser wakefield accelerator is presented. It utilizes a wire, which is introduced into the flow of a supersonic gas jet creating shock waves and three regions of differing plasma electron density. If tailored appropriately, the laser plasma interaction takes place in three stages: Laser self-compression, electron injection, and acceleration in the second plasma wave period. Compared to self-injection by wave breaking of a nonlinear plasma wave in a constant density plasma, this scheme increases beam charge by up to 1 order of magnitude in the quasimonoenergetic regime. Electron acceleration in the second plasma wave period reduces electron beam divergence by % 25%, and the localized injection at the density downramps results in spectra with less than a few percent relative spread.

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Laser-plasma electron acceleration in dielectric capillary tubes

et al. 2011

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Electron beams and betatron X-ray radiation generated by laser wakefield acceleration in long plasma targets are studied. The targets consist of hydrogen filled dielectric capillary tubes of diameter 150 to 200 microns and length 6 to 20 mm. Electron beams are observed for peak laser intensities as low as 5 × 10 17 W/cm 2 . It is found that the capillary collects energy outside the main peak of the focal spot and contributes to keep the beam self-focused over a distance longer than in a gas jet of similar density. This enables the pulse to evolve enough to reach the threshold for wavebreaking, and thus trap and accelerate electrons. No electrons were observed for capillaries of large diameter (250 µm), confirming that the capillary influences the interaction and does not have the same behaviour as a gas cell. Finally, X-rays are used as a diagnostic of the interaction

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F. Wojda

Controlling the spectrum of x-rays generated in a laser-plasma accelerator by tailoring the laser wavefront

Laser wakefield acceleration using wire produced double density ramps

Laser-plasma electron acceleration in dielectric capillary tubes

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