Your search keyword '"G. Riazuelo"' showing total 5 results

1. Laser Smoothing and Imprint Reduction with a Foam Layer in the Multikilojoule Regime

Author

Stefan Hüller, Vladimir Tikhonchuk, Caterina Riconda, G. Soullié, G. Thiell, M. Casanova, P. Romary, W. Nazarov, C. Labaune, B. Villette, C Meyer, D. T. Michel, Sylvie Depierreux, R. Wrobel, Jiri Limpouch, P. Di-Nicola, C. Reverdin, E. Alozy, N.G. Borisenko, G. Riazuelo, Mickael Grech, Ph. Nicolaï, C. Stenz, Denis Pesme, Stefan Weber, and Pascal Loiseau

Subjects

Physics, Phase (waves), General Physics and Astronomy, Plasma, Laser, law.invention, Brillouin zone, symbols.namesake, law, Ionization, symbols, Supersonic speed, Atomic physics, Rayleigh scattering, Raman scattering

Abstract

This Letter presents first experimental results of the laser imprint reduction in fusion scale plasmas using a low-density foam layer. The experiments were conducted on the LIL facility at the energy level of 12 kJ with millimeter-size plasmas, reproducing the conditions of the initial interaction phase in the direct-drive scheme. The results include the generation of a supersonic ionization wave in the foam and the reduction of the initial laser fluctuations after propagation through 500 {mu}m of foam with limited levels of stimulated Brillouin and Raman scattering. The smoothing mechanisms are analyzed and explained.

Published

2009

2. Strong reduction of the degree of spatial coherence of a laser beam propagating through a preformed plasma

Author

A. Michard, K. Lewis, S. Hulin, C. Labaune, G. Riazuelo, H. Bandulet, Guy Bonnaud, Pierre Michel, Hector A. Baldis, Sylvie Depierreux, S. Weber, and Vladimir Tikhonchuk

Subjects

Physics, Diffraction, Coherence time, business.industry, Paraxial approximation, Physics::Optics, General Physics and Astronomy, Plasma, Coherence length, Interferometry, Optics, business, Laser beams, Coherence (physics)

Abstract

A strong reduction of the spatial coherence of a laser beam after its propagation through a plasma has been measured using a Fresnel biprism interferometer. The laser beam was diffraction limited; the coherence width was reduced from 40 mm in vacuum down to a few mm with the plasma. Numerical results based on a paraxial model exhibit a coherence degree close to the experimental one; they also prove the importance of taking into account the nonlocal transport effects in numerical simulations for such plasma conditions.

Published

2003

3. Laser smoothing and imprint reduction with a foam layer in the multikilojoule regime.

Author

Depierreux S, Labaune C, Michel DT, Stenz C, Nicolaï P, Grech M, Riazuelo G, Weber S, Riconda C, Tikhonchuk VT, Loiseau P, Borisenko NG, Nazarov W, Hüller S, Pesme D, Casanova M, Limpouch J, Meyer C, Di-Nicola P, Wrobel R, Alozy E, Romary P, Thiell G, Soullié G, Reverdin C, and Villette B

Abstract

This Letter presents first experimental results of the laser imprint reduction in fusion scale plasmas using a low-density foam layer. The experiments were conducted on the LIL facility at the energy level of 12 kJ with millimeter-size plasmas, reproducing the conditions of the initial interaction phase in the direct-drive scheme. The results include the generation of a supersonic ionization wave in the foam and the reduction of the initial laser fluctuations after propagation through 500 mum of foam with limited levels of stimulated Brillouin and Raman scattering. The smoothing mechanisms are analyzed and explained.

Published

2009

4. Coherent forward stimulated-brillouin scattering of a spatially incoherent laser beam in a plasma and its effect on beam spray.

Author

Grech M, Riazuelo G, Pesme D, Weber S, and Tikhonchuk VT

Abstract

A statistical model for forward stimulated-Brillouin scattering is developed for a spatially incoherent, monochromatic, laser beam propagating in a plasma. The threshold above which the laser beam spatial incoherence cannot prevent the coherent growth of forward stimulated-Brillouin scattering is computed. It is found to be well below the threshold for self-focusing. Three-dimensional simulations confirm its existence and reveal the onset of beam spray above it. From these results, we propose a new figure of merit for the control of propagation through a plasma of a spatially incoherent laser beam.

Published

2009

5. Strong reduction of the degree of spatial coherence of a laser beam propagating through a preformed plasma.

Author

Michel P, Labaune C, Bandulet HC, Lewis K, Depierreux S, Hulin S, Bonnaud G, Tikhonchuk VT, Weber S, Riazuelo G, Baldis HA, and Michard A

Abstract

A strong reduction of the spatial coherence of a laser beam after its propagation through a plasma has been measured using a Fresnel biprism interferometer. The laser beam was diffraction limited; the coherence width was reduced from 40 mm in vacuum down to a few mm with the plasma. Numerical results based on a paraxial model exhibit a coherence degree close to the experimental one; they also prove the importance of taking into account the nonlocal transport effects in numerical simulations for such plasma conditions.

Published

2004