國立成功大學跨領域電漿學分學程

Certificate Program in Plasma

National Cheng Kung University

- 學程公告 -

電漿學分學程系列演講 暨 電漿所專題演講

The Laboratory Astrophysics with Intense Lasers =Challenge the physics in the Universe in laboratory=

演 講 者:Hideaki Takabe 講座教授

單 位:台大物理系

梁次震宇宙學與粒子天文物理學中心

學經歷:

PhD, Graduate School of Engineering, Osaka University

Professor emeritus, Institute of Laser Engineering, Osaka University

John Dawson Award “Excellence in Plasma Physics Research”, American Physical Society (2020)

演講地點:綜合大樓2樓 48218教室

演講日期:2022/12/21 (三) 19:00~21:00

Abstract

Thanks to a rapid progress of high-power lasers soon after the birth of laser by T. H. Maiman in 1960, intense lasers have been developed mainly for studying scientific feasibility of the laser fusion in the world wide. Inertial confinement fusion with intense laser has attracted attention as a new future energy after two oil crises from 1970s -1980s. From the beginning, the most challenging physics has been the physics of hydrodynamic instability to realize the spherical implosion to achieve more than 1000 times the solid density. During such activities in laboratory, the explosion of supernova SN1987A was observed in the sky on February 23, 1987. The x-ray satellites have revealed that the hydrodynamic instability is a key issue to understand the physics of supernova explosion. After strong interaction of laser plasma researchers and astrophysicists, the laboratory astrophysics with intense lasers has been proposed by the author and promoted around the end of 1990s as its image is shown in Figure below. The original subject was mainly related to hydrodynamic instabilities. However, after two decades of the laboratory astrophysics research, we can now find a diversity of its research topics. It has been demonstrated that a variety of nonlinear physics of collisionless plasmas can be studied in laser ablation plasmas in the last decade theoretically and experimentally. In my talk I focus on the recent topics intensively studied in laboratory experiments. After introducing the recent topics, I would like to talk about modeling cosmic-ray acceleration with lasers.