首页|期刊导航|强激光与粒子束|中国原子能科学研究院强场激光物理研究及在核科学中的应用

中国原子能科学研究院强场激光物理研究及在核科学中的应用OA

Research on high-intensity laser physics at the China Institute of Atomic Energy and its applications in nuclear science

中文摘要英文摘要

强激光技术是当前物理学与核科学的前沿领域,其通过啁啾脉冲放大技术在飞秒至阿秒时间尺度内产生极端光场强度,为研究强场量子电动力学、激光等离子体物理及极端核环境提供了独特平台.系统介绍了中国原子能科学研究院核物理研究所激光核物理研究团队在百太瓦级超快超强激光装置研制、理论机制研究与实验技术等方面的进展,包括高对比度脉冲整形、粒子加速、高亮度偏振γ光源、激光光源研发及等离子体靶参数诊断等.同时,阐述了强激光在极端等离子体环境模拟、高压物态方程、涡旋γ光与微观核靶相互作用、激光等离子体光谱等相关领域的重要应用.文章最后展望了新的发展方向,强调了强激光技术在推动核工业发展与基础核科学研究方面的重要价值.

High-intensity laser technology,based on chirped pulse amplification,produces extreme optical fields on ultrashort timescales,providing a powerful platform for studying strong-field quantum electrodynamics,laser-plasma interactions,and extreme nuclear environments.This review summarizes the major progress made by the Laser Nuclear Physics Research Team at the Department of Nuclear Physics,China Institute of Atomic Energy,in developing petawatt-class laser systems,theoretical modeling,diagnostic techniques,and applications in nuclear science and industry.The team successfully commissioned a 100 TW ultrafast ultra-intense laser facility in 2023,featuring advanced high-contrast pulse shaping through cross-polarized wave generation and spectral broadening techniques.Additional innovations include thermally optimized eye-safe micro-lasers with improved bonding structures.Theoretical efforts used particle-in-cell simulations to enhance ion acceleration via Coulomb explosion in multilayer targets,achieving high-quality quasi-monoenergetic proton beams under optimized dual-pulse configurations.A novel approach for generating bright circularly polarized γ-rays was proposed,exploiting vacuum dichroism-assisted vacuum birefringence effects.Diagnostic advancements involved refined Nomarski interferometry for precise gas-jet target profiling and fission-source-gated methods for accurate neutron detector calibration.Key applications encompass plasma-based measurements of astrophysical nuclear reaction factors,vortex γ-photon manipulation of nuclear multipole resonances,laser-driven flyer acceleration for high-pressure equation-of-state studies,and enhanced laser-induced breakdown spectroscopy for trace element monitoring in nuclear facilities.These achievements facilitate simulation of stellar nuclear synthesis,advanced radiation sources,materials testing under extreme conditions,and nuclear safety monitoring,laying the foundation for future compact,high-repetition-rate laser systems in energy security and frontier nuclear research.

李展鹏;王钊;郭冰;吕冲;孙伟;席晓峰;赵保真;刘秋实;班晓娜;王远航;高智星

中国原子能科学研究院 核物理研究所,北京 102413||西安交通大学 物理学院,西安 710049中国原子能科学研究院 核物理研究所,北京 102413中国原子能科学研究院 核物理研究所,北京 102413||西安交通大学 物理学院,西安 710049中国原子能科学研究院 核物理研究所,北京 102413中国原子能科学研究院 核物理研究所,北京 102413中国原子能科学研究院 核物理研究所,北京 102413中国原子能科学研究院 核物理研究所,北京 102413中国原子能科学研究院 核物理研究所,北京 102413中国原子能科学研究院 核物理研究所,北京 102413中国原子能科学研究院 核物理研究所,北京 102413中国原子能科学研究院 核物理研究所,北京 102413

信息技术与安全科学

强激光激光驱动粒子加速激光核物理激光等离子体诊断核技术应用

high-intensity laserlaser-driven particle accelerationlaser nuclear physicslaser-plasma diagnosticsnuclear technology applications

《强激光与粒子束》 2026 (3)

41-52,12

国家科技部重点研发计划青年科学家项目(2024YFA1612700)国家自然科学基金杰出青年项目(12125509)核技术研发项目和重点项目(HJSYF2024(01)、U2267204)财政部稳定支持经费项目(18BJ010261224900)中核集团"青年英才"菁英人才项目

10.11884/HPLPB202638.250407

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