ACTUALITÉS DU LABORATOIRE
Microsecond ion flux mapping in HiPIMS via magnetized QCM probe
This article presents a diagnostic method based on a modified quartz crystal microbalance, enabling microsecond-resolved measurement of the ion flux produced by the sputtering of a magnetron target in the HiPIMS (High Power Impulse Magnetron Sputtering) regime. Patented by LPGP via CNRS Innovation, this approach, unique to date, enables quantitative characterization of the ion flux dynamics contributing to film growth during a HiPIMS pulse.
Plasma–flow coupling and metastable evolution in a cold argon plasma jet: a computational fluid dynamics study
Duarte Gonçalves*, João Santos Sousa, Stéphane Pasquiers, Mário Lino da Silva and Luís L Alves
Published 31 March 2026 • © 2026 The Author(s). Published by IOP Publishing Ltd
Plasma Sources Science and Technology, Volume 35, Number 3Citation Duarte Gonçalves et al 2026 Plasma Sources Sci. Technol. 35 035022 DOI 10.1088/1361-6595/ae4ad4v
Investigation of the diffusive ionization wave in double-pulse experiment in low-pressure air-like mixtures
Yulin Guo, Yaqi Zhang, Yifei Zhu, Anbang Sun* and Pierre Tardiveau*
Published 7 August 2025 • © 2025 IOP Publishing Ltd. All rights, including for text and data mining, AI training, and similar technologies, are reserved.
Plasma Sources Science and Technology, Volume 34, Number 8 Citation Yulin Guo et al 2025 Plasma Sources Sci. Technol. 34 085006
Modeling laser-wakefield accelerators using the time-averaged ponderomotive approximation in a Lorentz boosted frame
HAL-link
Future, high-fidelity simulations of multi-GeV-class Laser Wakefield Accelerators (LWFAs) will need to model the propagation of high-intensity laser drivers over meter-scale plasmas with high spatial and temporal resolutions, thus requiring high amounts of computational resources. Various techniques have been devised over the years to reduce the computational cost of such simulations, including the time-averaged ponderomotive approximation, and the use of the Lorentz boosted frame technique. In this paper we discuss the combination of these two computational techniques, highlighting the resulting significant reduction in the computational cost of LWFA simulations and the limitations of this approach. The combination of the two techniques can potentially become essential for the modeling of a multi-TeV, LWFA-based collider.
5th Smilei workshop
Du 19 au 21 mars 2025.
The 5th edition of the Smilei User & Training Workshop took place at the Higher Technical School of Aeronautical and Space Engineering (ETSIAE) of the Polytechnic University of Madrid (UPM). The event brought together nearly 40 researchers from universities and laboratories in Europe and beyond, as well as about 20 international participants who followed the sessions online.
Journée Science et Progrès 2025
11 Mars 2025 – Ecole Normale Supérieure de Paris
The Space Revolution in Astronomy
The F2S invites you to attend its 2025 annual conference
The F2S plans to dedicate the 2025 Science and Progress Day to space and space technology. The event is titled “The ‘Space’ Revolution in Astronomy” and will be introduced by Jean Audouze.
Jacques Robert
L’hypothèse de Louis de Broglie
20 fevrier 2025 – 14h
The seminar, which will draw heavily on the writings of Louis de Broglie, will examine the content of his work, whose arguments remain highly original and cannot be reduced to the formula relating wavelength to momentum.
Le projet HERBISTOP est une solution innovante proposant l’utilisation de plasmas pour effectuer des actions de désherbage dans les multiples domaines ou il s’avère indispensable, comme l’agriculture, le transport (routes, ponts, voies ferrées, pistes des aéroports/aérodromes) ou l’urbanisme (parkings, trottoirs, terrains de sport, zones de loisirs, cimetières).
ÉVÉNEMENT
NOUVEAU LIVRE
Benjamin Seznec, Tiberiu Minea, Gilles Maynard GeePs, CentraleSupelec of University Paris-Saclay, Gif-sur-Yvette Cedex, France
Philippe Dessante, Philippe Teste
Theoretical Treatment of Electron Emission and Related Phenomena
Ce livre se veut une introduction à la physique qui gouverne l’émission électronique sous fort champ et à haute température. Il présente les approches récentes en modélisation numérique et les développements avancés et constitue une ressource importante pour les étudiants en Master et les doctorants désireux d’approfondir l’émission de champ, la tenue des dispositifs à haute tension, l’irradiation des surfaces par laser, le claquage sous vide, mais aussi pour des chercheurs et industriels dans le domaine des accélérateurs ou la physique du solide, avec un intérêt pour ces phénomènes de surface.Authors and Affiliations:LPGP, University Paris-Saclay, Orsay, France
https://doi.org/10.1007/978-3-030-98419-9: HomeLaboratoire de Physique des Gaz et des Plasmas
Bat 210, rue Henri Becquerel
91405 Orsay Cedex
Tél : (33) 01 69 15 72 51
RÉSEAUX SOCIAUX
