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基于短磁透镜的展宽相机成像质量研究OA

Imaging quality of a pulse-dilation framing camera based on short magnetic lenses

中文摘要英文摘要

为提高时间展宽X射线分幅相机的空间分辨率,设计基于短磁透镜组成像的时间展宽分幅相机.采用蒙特卡罗方法、有限差分法和有限元法建立分幅相机理论模型,研究相机空间分辨特性.结果表明,随着短磁透镜个数的增加,分幅相机成像面曲率半径增大,空间分辨率提高,当采用5个短磁透镜成像时,分幅相机在成像面直径42 mm内的空间分辨率优于15.0 lp/mm.建立时间展宽分幅相机实验平台,当采用两个短磁透镜成像时,在直径18 mm成像范围内,分幅相机空间分辨率优于10.0 lp/mm,且分幅相机空间分辨率随阴极电压的增大而提高.采用多个短磁透镜可进一步提升成像质量,但这也会导致系统复杂性增加,实际应用中需根据具体需求选取透镜个数.

The pulse-dilation X-ray framing camera is an important two-dimensional ultrafast imaging diagnostic tool for laser nuclear fusion research.To improve the spatial resolution of the camera,a pulse-dilation framing camera employing short magnetic lenses for imaging is designed.The short magnetic lens group consists of different numbers of short magnetic lenses.A theoretical model of the framing camera is established using the Monte Carlo method,finite difference method and finite element method to investigate its spatial resolution characteristics.The results show that,as the number of short magnetic lenses increases,the curvature radius of the imaging surface of the framing camera increases.And the spatial resolution of the framing camera improves with the increasing number of short magnetic lenses.When five short magnetic lenses are employed,the spatial resolution of the framing camera is better than 15.0 lp/mm within a 42 mm diameter imaging area.An experimental platform for the pulse-dilation framing camera is constructed.With two short magnetic lenses used for imaging,the spatial resolution of the framing camera is better than 10.0 lp/mm within an 18 mm diameter imaging range.In addition,the spatial resolution of the framing camera improves with the increasing of cathode voltage.The experimental results are consistent with the theoretical predictions.Although employing multiple short magnetic lenses can further enhance imaging quality,it also increases system complexity.Therefore,in practical applications,the number of magnetic lenses should be selected according to specific performance requirements.

张志庭;罗秋燕;邓芷颖;蔡厚智;向利娟

深圳大学物理与光电工程学院,光电子器件与系统教育部/广东省重点实验室,深圳市光子学与生物光子学重点实验室,广东 深圳 518060||深圳众庭联合科技有限公司,广东 深圳 518060深圳大学物理与光电工程学院,光电子器件与系统教育部/广东省重点实验室,深圳市光子学与生物光子学重点实验室,广东 深圳 518060深圳大学物理与光电工程学院,光电子器件与系统教育部/广东省重点实验室,深圳市光子学与生物光子学重点实验室,广东 深圳 518060深圳大学物理与光电工程学院,光电子器件与系统教育部/广东省重点实验室,深圳市光子学与生物光子学重点实验室,广东 深圳 518060深圳大学物理与光电工程学院,光电子器件与系统教育部/广东省重点实验室,深圳市光子学与生物光子学重点实验室,广东 深圳 518060

信息技术与安全科学

等离子体物理学惯性约束聚变分幅相机时间展宽空间分辨率短磁透镜成像质量

plasma physicsinertial confinement fusionframing camerapulse-dilationspatial resolutionshort magnetic lensimaging quality

《深圳大学学报(理工版)》 2026 (2)

203-208,6

National Natural Science Foundation of China(12575252,12575223)Foundation of National Key Laboratory of Plasma Physics(JCKYS2025212807)Basic and Applied Basic Research Foundation of Guangdong Province(2025A1515011820,2024A1515011832)Shenzhen Basic Research Foundation(JCYJ20240813141605008,JCYJ20240813141615021,JCYJ 20230808105019039)Foundation of Shenzhen Key Laboratory of Photonics and Biophotonics(ZDSYS20210623092006020) 国家自然科学基金资助项目(12575252,12575223)等离子体物理全国重点实验室基金资助项目(JCKYS2025212807)广东省基础与应用基础研究基金资助项目(2025A1515011820,2024A1515011832)深圳市基础研究计划资助项目(JCYJ20240813141605008,JCYJ20240813141615021,JCYJ20230808105019039)深圳市光子学和生物光子学重点实验室基金资助项目(ZDSYS20210623092006020)

10.3724/SP.J.1249.2026.02203

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