Y. Maheut scite author profile

Y. Maheut

2Publications

82Citation Statements Received

56Citation Statements Given

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Affiliations

Centre Lasers Intenses et Applications, Atomic Energy and Alternative Energies Commission, French National Centre for Scientific Research

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Generation of high pressure shocks relevant to the shock-ignition intensity regime

Batani

Antonelli

Atzeni

et al. 2014

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An experiment was performed using the PALS laser to study laser-target coupling and laser-plasma interaction in an intensity regime 1016 W/cm2, relevant for the “shock ignition” approach to Inertial Confinement Fusion. A first beam at low intensity was used to create an extended preformed plasma, and a second one to create a strong shock. Pressures up to 90 Megabars were inferred. Our results show the importance of the details of energy transport in the overdense region

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Coupled hydrodynamic model for laser-plasma interaction and hot electron generation

et al. 2015

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We present a formulation of the model of laser-plasma interaction (LPI) at hydrodynamical scales that couples the plasma dynamics with linear and nonlinear LPI processes, including the creation and propagation of high-energy electrons excited by parametric instabilities and collective effects. This formulation accounts for laser beam refraction and diffraction, energy absorption due to collisional and resonant processes, and hot electron generation due to the stimulated Raman scattering, two-plasmon decay, and resonant absorption processes. Hot electron (HE) transport and absorption are described within the multigroup angular scattering approximation, adapted for transversally Gaussian electron beams. This multiscale inline LPI-HE model is used to interpret several shock ignition experiments, highlighting the importance of target preheating by HEs and the shortcomings of standard geometrical optics when modeling the propagation and absorption of intense laser pulses. It is found that HEs from parametric instabilities significantly increase the shock pressure and velocity in the target, while decreasing its strength and the overall ablation pressure.

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Y. Maheut

Generation of high pressure shocks relevant to the shock-ignition intensity regime

Coupled hydrodynamic model for laser-plasma interaction and hot electron generation

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