摘要
磁化套筒惯性聚变(MagLIF)是一种新的聚变构型,它结合了传统惯性约束聚变和磁约束聚变的优点,理论上可以显著地降低聚变实现的难度,未来必将朝着点火的目标进一步发展,具备极大的应用潜力。针对这一特殊构型,分别从理论、实验和工程三个部分介绍了国际上该领域主要的研究进展,内容覆盖理论研究、数值模拟、实验加载、测量与诊断、负载设计与加工、分解实验、构型改进等多个方面,通过该文能够对该领域的研究现状有相对完善的了解,对未来发展趋势也有一定的认知。
Magnetized Liner Inertial Fusion(MagLIF)is a new concept of controlled fusion,which combines both advantages of traditional magnetic confinement fusion(MCF)and inertial confinement fusion(ICF).It has promising application potentials because theoretically it can dramatically lower the difficulties in realizing controlled fusion.For purpose of better understandings of MagLIF,we investigate and summarize the main progresses achieved in this field.This paper will acquaint researchers with MagLIF research progress in the following domains:theoretical and analytic research,numerical simulations,experimental configurations,measurements and diagnostics,load designs and fabrications,laser driving MagLIF and auto-magnetization target.It will also provide heuristic perspectives for future MagLIF research.
作者
赵海龙
肖波
王刚华
王强
Zhao Hailong;Xiao Bo;Wang Ganghua;Wang Qiang(Institute of Fluid Physics,CAEP,P.O.Box 919-105,Mianyang 621900,China)
出处
《强激光与粒子束》
EI
CAS
CSCD
北大核心
2020年第5期17-29,共13页
High Power Laser and Particle Beams
基金
国家自然科学基金项目(11205145,11605189)。
关键词
可控核聚变
磁化套筒惯性聚变
研究进展
controlled fusion
magnetized liner inertial fusion
research progress
