Your search keyword '"Lassonde, P."' showing total 3 results

1. Quasimonoenergetic electron beams from laser wakefield acceleration in pure nitrogen.

Author

Mo, M. Z., Ali, A., Fourmaux, S., Lassonde, P., Kieffer, J. C., and Fedosejevs, R.

Subjects

NITROGEN, ELECTRON beam research, IONIZATION (Atomic physics), ELECTRON energy states, PLASMA density, ELECTRON distribution

Abstract

Quasimonoenergetic electron beams with maximum energy >0.5 GeV and 2 mrad divergence have been generated in pure nitrogen gas via wakefield acceleration with 80 TW, 30 fs laser pulses. Long low energy tail features were typically observed due to continuous ionization injection. The measured peak electron energy decreased with the plasma density, agreeing with the predicted scaling for electrons. The experiments showed a threshold electron density of 3×1018cm-3 for self-trapping. Our experiments suggest that pure Nitrogen is a potential candidate gas to achieve GeV monoenergetic electrons using the ionization induced injection scheme for laser wakefield acceleration. [ABSTRACT FROM AUTHOR]

Published

2012

2. Toward determinism in surface damaging of dielectrics using few-cycle laser pulses.

Author

Sanner, N., Utéza, O., Chimier, B., Sentis, M., Lassonde, P., Légaré, F., and Kieffer, J. C.

Subjects

FUSED silica, DIELECTRICS, LASER beams, IONIZATION (Atomic physics), CONDUCTION bands

Abstract

We introduce a quantitative measurement of the determinism of laser-induced damaging at the surface of a dielectric material, e.g., fused silica. Using laser pulses ranging from 7 to 300 fs, we demonstrate that laser damage occurrence tends to be dramatically deterministic at 7 fs, which is attributed to the increasing importance of tunneling ionization as the major channel for the generation of free-carriers in the conduction band. [ABSTRACT FROM AUTHOR]

Published

2010

3. Generation of 500 MeV-1 GeV energy electrons from laser wakefield acceleration via ionization induced injection using CO2 mixed in He.

Author

Mo, M. Z., Ali, A., Fourmaux, S., Lassonde, P., Kieffer, J. C., and Fedosejevs, R.

Subjects

IONIZATION (Atomic physics), ELECTRIC fields, SPECTRAL energy distribution, PROBABILITY theory, LASER pulses

Abstract

Laser wakefield acceleration of 500 MeV to 1 GeV electron bunches has been demonstrated using ionization injection in mixtures of 4% to 10% of CO2 in He. 80 TW laser pulses were propagated through 5 mm gas jet targets at electron densities of 0.4-1.5×1019cm-3. Ionization injection led to lower density thresholds, a higher total electron charge, and an increased probability of producing electrons above 500 MeV in energy compared to self-injection in He gas alone. Electrons with GeV energies were also observed on a few shots and indicative of an additional energy enhancement mechanism. [ABSTRACT FROM AUTHOR]

Published

2013