摘要
双层磁化套筒靶在内层采用高原子序数(Z)材料,减少了因能斯特效应导致的磁通损失并降低点火要求,为磁化靶聚变提供了一种备选方案。然而,添加高Z材料也可能增加由于物质混合而产生的辐射损失。通过在金属套筒中使用带有塑料掺杂的锗作为高Z替代物,初步分析了磁场能斯特输运和物质混合对磁化套筒惯性聚变的影响。与单层套筒相比,双层套筒靶展示出温度和磁通的显著增加,从而使聚变产额提高了154%。将碳氢掺杂剂添加到最内层的锗中,模拟了物质混合对聚变产额的影响。研究结果表明,锗与CH混合,保持较低的混合比例,能够显著提高聚变产额。
The two-layer magnetized liner target offers an alternative approach to magnetized target fusion implosions by incorporating high atomic number(Z)materials in the innermost layer to mitigate magnetic flux losses caused by Nernst effects and reduce ignition requirements.However,the inclusion of high-Z materials may lead to increased radiation losses due to mixing.This preliminary research on magnetized liner inertial fusion(MagLIF)utilizes germanium(Ge)doped with CH as a high-Z substitute in the liner to isolate the effects of magnetic Nernst advection and mixing.Compared to one-layer targets,the two-layer configuration demonstrates significant increases in temperature and magnetic flux,resulting in a 154%improvement in fusion yield.Different concentrations of CH dopant are introduced into the inner layer of Ge,and the effects of CH concentrations on fusion yield are analyzed.The study shows that using low concentration CH-doped Ge as inner layer of liner can enhance fusion yield.
作者
陈诗佳
张华
周沧涛
卓红斌
吴福源
Rafael Ramis
Chen Shijia;Zhang Hua;Zhou Cangtao;Zhuo Hongbin;Wu Fuyuan;Rafael Ramis(College of Applied Sciences,Shenzhen University,Shenzhen 518060,China;Shenzhen Key Laboratory of Ultraintense Laser and Advanced Material Technology,Center for Intense Laser Application Technology,and College of Engineering Physics,Shenzhen Technology University,Shenzhen 518118,China;Laboratory of Laser Plasmas,School of Physics and Astronomy,Shanghai Jiao Tong University,Shanghai,200240,China;E.T.S.I.Aeronautica y del Espacio,Universidad Politecnica de Madrid,P.Cardenal Cisneros 3,E-28040,Madrid,Spain)
出处
《强激光与粒子束》
CAS
CSCD
北大核心
2024年第9期169-174,共6页
High Power Laser and Particle Beams
基金
国家重点研发项目(2023YFA1608403,2022YFA1603300)
国家自然科学基金项目(12205200,12205185,12375237)
中国博士后科学基金项目(2023M742402)
深圳市科技计划资助项目(RCBS20221008093131086,ZDSYS20200811143600001)。