2020
DOI: 10.1103/physrevresearch.2.023123
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Probing ultrafast magnetic-field generation by current filamentation instability in femtosecond relativistic laser-matter interactions

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Cited by 28 publications
(23 citation statements)
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“…The requirements for the external magnetic field will be more tolerant if the electron bunch is more collimated in stage I. In experiments, it is necessary to deplete laser pulse energy (e.g., increase the jet-foil distance or put a laser blocker between stage I and stage II) to avoid the laser-solid interaction [38][39][40][41] .…”
Section: Resultsmentioning
confidence: 99%
“…The requirements for the external magnetic field will be more tolerant if the electron bunch is more collimated in stage I. In experiments, it is necessary to deplete laser pulse energy (e.g., increase the jet-foil distance or put a laser blocker between stage I and stage II) to avoid the laser-solid interaction [38][39][40][41] .…”
Section: Resultsmentioning
confidence: 99%
“…Furthermore we observe a ∼ 13× increase in the signal when the PM is placed within the jet exit versus 4 mm downstream offering a simple but robust tunability of the scattering regime. We observe an increase of ∼ 2× in the electron divergence when the PM is close to the jet (< 1 mm) resulting from strong magnetic fields within the plasma mirror at relativistic laser intensities [28,29]. The perturbation from the electrons passing through the PM bulk occurs after the reflected laser scatters from the accelerated electrons, thus we can assume that the electron divergence remains constant at ∼ 1.9 ± 0.3 mrad during the ICS interaction.…”
Section: Total Radiated Energymentioning
confidence: 79%
“…For this purpose, the simulated foil was implemented with 50 times the critical density, which is sufficiently dense to lead to the laser-plasma mirror effect. This approach neglects density perturbations around the foil and possibly underestimates the divergence increase due to fields within the foil, as observed in the experiments and also reported in a dedicated study 38 . Closely mimicking the experiment, the central wavelength of the laser is 800 nm, the total energy 1.4 J, the pulse duration 30 fs, and the spot size 19 μm (both FWHM intensity).…”
Section: Methodsmentioning
confidence: 87%
“…Tailored density ramps 36 and plasma lenses 37 can be deployed to mitigate emittance growth during transport of the beams over extended distances between the two stages and to facilitate beam matching into the PWFA section. Placing the laser blocker further downstream minimizes beam degradation imposed by the laser–foil interactions 38 . Furthermore, the witness beam energy can be increased by elongating the PWFA stage close to the depletion distance of the driver.…”
Section: Discussionmentioning
confidence: 99%
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