强激光与粒子束2026,Vol.38Issue(3):17-27,11.DOI:10.11884/HPLPB202638.260005
上海交通大学"重明"激光等离子体实验装置及科学研究
Chongming laser-plasma experimental facility and scientific research at Shanghai Jiao Tong University
摘要
Abstract
The rapid development of ultra-short and ultra-intense laser technology has greatly advanced frontier research in physics under extreme strong-field conditions.This includes compact accelerators,high-brightness radiation sources,nonlinear strong-field quantum electrodynamics,as well as the production and detection of axion dark matter based on intense lasers.Over the past decade,Shanghai Jiao Tong University has carried out systematic theoretical,simulation and experimental research in this field,and has successively built a relativistic plasma research platform based on a single-beam hundred-terawatt-level laser and an extreme relativistic plasma research platform based on a dual-beam hundred-terawatt-level laser with high-precision spatiotemporal synchronization.In this paper,we present the layout,key parameters and characteristics of the newly commissioned dual-beam Chongming Laser-plasma Experimental Facility(CLEF),and highlight both completed and ongoing scientific activities,including the studies on laser-solid high-order harmonic generation,laser-plasma wakefield acceleration,nonlinear Compton scattering,and the production and detection of axion dark matter driven by intense lasers.The completion and operation of this facility will provide an essential supporting platform for experimental research in the field of extreme relativistic plasma physics.关键词
激光等离子体/激光加速/新型辐射源/非线性量子电动力学/轴子暗物质Key words
laser plasma/laser acceleration/novel radiation source/nonlinear quantum electrodynamics/axion dark matter分类
数理科学引用本文复制引用
高健,李博原,闫文超,刘峰,陈民..上海交通大学"重明"激光等离子体实验装置及科学研究[J].强激光与粒子束,2026,38(3):17-27,11.基金项目
国家自然科学基金项目(12074251、12225505、12175140、12475245) (12074251、12225505、12175140、12475245)
中科院先导专项(XDB0530303) (XDB0530303)
国家重点研发计划项目(2021YFA1601700) (2021YFA1601700)
上海交通大学2030B类计划项目 ()
