超宽带高阈值色散调控超快激光薄膜研究进展(特邀)  

作　　者：邵建达[1,2,3] 贾琳 柳畅 徐天泽 陈宇 王胭脂[1] Shao Jianda;Jia Lin;Liu Chang;Xu Tianze;Chen Yu;Wang Yanzhi(Laboratory of Thin Film Optics,Shanghai Institute of Optics and Fine Mechanics,Chinese Academy of Sciences,Shanghai 201800,China;College of Materials Science and Opto-Electronic Technology,University of Chinese Academy of Sciences,Beijing 100049,China;Hangzhou Institute for Advanced Study,University of Chinese Academy of Sciences,Hangzhou 310024,Zhejiang,China;School of Physical Science and Technology,ShanghaiTech University,Shanghai 201210,China)

机构地区：[1]中国科学院上海光学精密机械研究所薄膜光学实验室,上海201800 [2]中国科学院大学材料科学与光电技术学院,北京100049 [3]国科大杭州高等研究院,浙江杭州310024 [4]上海科技大学物质科学与技术学院,上海201210

出　　处：《光学学报》2024年第17期250-273,共24页Acta Optica Sinica

基　　金：中国科学院战略先导研究(XDB1603);中国科学院国际合作计划(181231KYSB20200040);中国科学院青年创新促进会(Y2021072);中国博士后科学基金(2022M723268)。

摘　　要：超强超短激光、阿秒激光在前沿基础科学、生命医学、国民经济等领域具有巨大的应用价值,也是当前国际科技竞争的重大前沿领域。超快激光薄膜作为激光系统中光束方向控制、色散调控的关键元件,其反射率、带宽、色散控制以及抗激光损伤能力等综合性能是制约超快激光脉冲输出的关键因素,一直以来都是激光薄膜领域的研究热点。从理论设计、精密制备、损伤特性以及系统应用等方面详细综述超快激光薄膜的研究进展,并简要展望超快激光薄膜的发展趋势。Significance Superintense ultrafast laser pulses,characterized by their extremely short duration and high instantaneous power,generate extreme physical conditions,including ultrafast temporal scales,ultra-high energy densities,and ultra-strong electromagnetic fields.These pulses represent a cutting-edge scientific frontier with profound implications for fundamental science,life sciences,national defense,etc.Since the advent of lasers,researchers have strived to produce superintense ultrafast pulses with narrower pulse widths and higher peak powers.The development of mode-locking techniques,Ti-sapphire gain media,prism pairs,gratings,and other dispersion compensation techniques has made sub-100 fs pulses achievable.To further reduce femtosecond pulse widths,more precise dispersion compensation is required.Chirped mirrors have become essential for generating sub-10 fs pulses.In 2001,leveraging advanced chirped mirror technology,the Vienna University of Technology in Austria first generated and measured isolated attosecond pulses from femtosecond pulse lasers interacting with noble gas targets,marking the beginning of the attosecond era.In addition to efforts to shorten pulse widths,increasing peak pulse power has been a major goal.The advent of chirped pulse amplification(CPA)and optical parametric chirped pulse amplification(OPCPA)has enabled the production of petawatt(PW)-femtosecond(fs)pulses.Peak power has rapidly exceeded 4.2 PW-20 fs and even 10 PW-25 fs,creating unprecedented extreme physical conditions.As laser technology has evolved,ultrafast laser coating technology has evolved with it,and vice versa.Ultrafast laser coatings are crucial for guiding laser beams and managing dispersion within laser systems.Their performance metrics including reflectivity,bandwidth,dispersion control,and laser damage resistance significantly affect the performance of ultrafast laser pulses.This area continues to be a dynamic research focus.By employing gradual changes in optical thickness in layer structures,ultrafast laser

关 键 词：超快光学 超快激光薄膜 色散调控 激光损伤 超强超短 阿秒脉冲 超快激光 

分 类 号：O484[理学—固体物理]