【直播】【MRE】激光与过稠密等离子体相互作用的表面电子加速

KouShare 蔻享学术 2022-10-03

直播信息

报告题目

激光与过稠密等离子体相互作用的表面电子加速

报告人（单位）

Caterina Riconda博士

报告时间

2022年7月19日（周二）21:00

主办方

Matter and Radiation at Extreme (MRE)

直播二维码

报告人介绍

C. Riconda obtained her PhD degree in 1996 from the Massachussetts Institute of Technology, USA, under the supervision of Prof. B. Coppi. A first post-doc at the Joint European Torus in the UK was followed by a TMR Marie Curie Fellowship at Ecole Polytechnique, FR. After holding a junior professor position at the University of Bordeaux, she is currently full professor at Sorbonne University at the Laboratoire d’Utilisation des Lasers Intenses (LULI) and group leader of the theory team TIPS. Her research interests are theory and kinetic simulations of laser-plasma interaction, non-linear wave-wave and wave-particle coupling in plasmas, surface electron acceleration, plasma optics, relativistic plasmas and strong field QED in plasmas.

Matter and Radiation at Extremes (MRE), superintended by China Academy of Engineering Physics, is committed to the publication of original and impactful research and review papers that address extreme states of matter and radiation, and the associated science and technology that are employed to produce and diagnose these conditions in the laboratory. Drivers, targets and diagnostics are included along with related numerical simulation and computational methods. It aims to provide a peer-reviewed platform for the international physics community and promote worldwide dissemination of the latest and impactful research in related fields. Matter and Radiation at Extremes (MRE) is an open access journal. Articles published in MRE are freely accessible, without restriction, to the global public.

专题直播&回放链接：https://www.koushare.com/courseTopicIndex/i/MRE

扩展阅读

1. 第三届MRE青年科学家奖

2.【MRE】行星内部：从实验室温稠密物质实验到木星内核

3.【MRE】基于激光尾波场加速器的高质量电子束与自由电子激光

4.【MRE】茨科学研究所全新2×100 TW魏曼对激光加速器研究物理的新成果

5.【MRE】强模论产生微窗在加速和阶梯光中的作用

编辑：王媛媛

蔻享学术平台，国内领先的一站式科学资源共享平台，依托国内外一流科研院所、高等院校和企业的科研力量，聚焦前沿科学，以优化科研创新环境、传播和服务科学、促进学科交叉融合为宗旨，打造优质学术资源的共享数据平台。

版权说明：未经授权严禁任何形式的媒体转载和摘编，并且严禁转载至微信以外的平台！

原创文章首发于蔻享学术，仅代表作者观点，不代表蔻享学术立场。

转载请在『蔻享学术』公众号后台留言。