PhD in Laser-Plasma Interaction Physics Applied to Inertial Confinement Fusion (M/F)
- Ente
- CNRS
- Paese
- Francia
- Campo di ricerca
- Physics
- Lingua dell’annuncio
- Inglese
- Tipo di contratto
- Temporary
- Profilo ricercato
- Ricercatore in fisica
- Titolo di studio
- Master Degree or equivalent
- Sede
- PALAISEAU, Francia
- Pubblicato il
- —
- Scadenza
- 29 luglio 2026
Descrizione
PhD in Laser-Plasma Interaction Physics Applied to Inertial Confinement Fusion (M/F) Sintesi in italiano (traduzione automatica): Il CNRS, un'importante organizzazione di ricerca fondamentale, offre un dottorato di ricerca in Fisica dell'Interazione Laser-Plasma applicata alla Fusione Inerziale presso il laboratorio LULI, situato nel campus dell'École Polytechnique a Palaiseau, Francia. Il candidato selezionato si unirà al team teorico di LULI e collaborerà con i team sperimentali coinvolti nel progetto Taranis. La ricerca si concentrerà sullo studio teorico e numerico delle instabilità parametriche generate da fasci laser a bassa coerenza temporale, con l'obiettivo di migliorare il accoppiamento tra il fascio laser e il bersaglio. È richiesta una laurea in Fisica o un campo correlato, e il candidato dovrà avere competenze in simulazioni numeriche e analisi cinetica. CNRS is a major player in fundamental research worldwide. LULI, a reference laboratory in the field of intense lasers, is located on the École Polytechnique campus in Palaiseau, as well as at the Orme des Merisiers site (CEA) and Sorbonne University (Jussieu). It compris-es about 110 staff members (researchers, engineers, PhD students) and operates several major experimental facilities: LULI2000, Apollon, HERA, XCAN. The PhD student will join LULI's theory team (TIPS) and will work closely with LULI's exper-imental teams involved in the Taranis project. This thesis focuses on the theoretical and numerical study of parametric instabilities driv-en by broadband, low-temporal-coherence laser beams, in the context of future laser fa-cilities for inertial fusion. It will be carried out within the theory group TIPS (Theory, Plas-ma Interpretation & Simulation), in close collaboration with the experimental teams of the Laboratoire pour l'Utilisation des Lasers Intenses (LULI) on the campus of École Poly-technique in Palaiseau (France). Context - In 2022, the National Ignition Facility (NIF, United States) demonstrated net en-ergy gain in inertial fusion for the first time, marking a major scientific advancement. This breakthrough has since spurred numerous international projects aimed at developing low-carbon power-generating reactors based on laser fusion. In France, the Taranis project, selected in March 2024 as part of the France 2030 plan and led by the startup GenF, brings together a national consortium comprising Thales, the CEA, and the CNRS (through its two laboratories, LULI and CELIA). In this context, LULI is responsible for several work packages, including the development of innovative laser sources to test advanced inertial fusion concepts, particularly in direct-drive geometries. This thesis is part of this effort, exploring the use of broadband inco-herent sources to drive the implosion. The goal is to improve the coupling between the laser beam and the target while minimizing undesirable effects: laser imprint and, at the heart of this thesis, parametric instabilities, in particular stimulated Raman scattering and two-plasmon decay, which involve Langmuir waves, as well as stimulated Brillouin scatter-ing and cross-beam energy transfer (CBET), which involve the ion acoustic response. Scientific objectives - Advances in broadband laser technology are fueling hopes of achiev-ing inertial confinement fusion in a regime largely free of parametric instabilities, paving the way for more robust implosions [Froula et al., Phys. Plasmas 32, 052713 (2025)]. How-ever, the actual effectiveness of this suppression depends heavily on the specific nature of the broadband source, and not just on its spectral width: discrete frequency comb ver-sus continuous spectrum, and the presence or absence of spectral dispersion. Added to this are kinetic effects (electron trapping, plasma wave broadening) and geometric effects, such as 2D/3D propagation and beam speckle patterns, which remain largely unexplored because they require significant simulation capabilities. This thesis aims to conduct a systematic kinetic analysis, based on particle-in-cell (PIC) simulations, in order to (1) compare the effect of different types of broadband sources on the growth and saturation of three-wave coupling instabilities (Raman and Brillouin); (2) to extend this analysis to an inhomogeneous geometry representative of direct drive con-ditions, in 2D or 3D geometry, and taking into account the spatial structure of the beam (speckle pattern) and spectral dispersion; (3) to assist in the conception and interpreta-tion of experiments conducted on LULI's laser facilities (LULI2000 and Apollon). Methodology - The numerical studies will be conducted primarily using the SMILEI kinetic (PIC) code, which was co-developed by LULI and several laboratories at the Saclay Plateau. They will complement the experiments conducted on LULI's laser facilities. Close collabo-rati Annuncio in inglese. Fonte: Euraxess (Commissione europea).
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Fonte: Euraxess (Commissione europea) · Servizio indipendente
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