【摘 要】
:
In the laser plasma interaction of quantum electrodynamics (QED)-dominated regime, γ-rays are generated due to synchrotron radiation from high-energy electrons traveling in a strong background electromagnetic field. With the aid of 2D particle-in-cell cod
【机 构】
:
CASKeyLaboratoryofGeospaceEnvironmentandDepartmentofEngineeringandAppliedPhysics,UniversityofScience
【出 处】
:
HighPowerLaserScienceandEngineering
论文部分内容阅读
In the laser plasma interaction of quantum electrodynamics (QED)-dominated regime, γ-rays are generated due to synchrotron radiation from high-energy electrons traveling in a strong background electromagnetic field. With the aid of 2D particle-in-cell code including QED physics, we investigate the preplasma effect on the γ-ray generation during the interaction between an ultraintense laser pulse and solid targets. We found that with the increasing preplasma scale length, the γ-ray emission is enhanced significantly and finally reaches a steady state. Meanwhile, the γ-ray beam becomes collimated. This shows that, in some cases, the preplasmas will be piled up acting as a plasma mirror in the underdense preplasma region, where the γ-rays are produced by the collision between the forward electrons and the reflected laser fields from the piled plasma. The piled plasma plays the same role as the usual reflection mirror made from a solid target. Thus, a single solid target with proper scale length preplasma can serve as a manufactural and robust γ-ray source.
其他文献
以带有抛物势的薛定谔方程为理论模型,采用分步傅里叶数值模拟方法,对势阱介质中的有限能量艾里-厄米-高斯光束的传输特性以及相互作用关系进行研究。结果表明,势阱介质会使有限能量艾里-厄米-高斯光束的光场结构在传输过程中发生旋转。随着势阱强度的增大,光束的光场结构完成旋转所需的传输距离越来越短。此外,进一步探讨了具有不同初始间隔的两个有限能量艾里-厄米-高斯光束在势阱介质中的相互作用关系,发现在传输过程中光束的光斑数量会发生变化。
报道了一种将光波分复用器与光隔离器集于一体的适用于掺铒光纤放大器的新颖复合组件。根据复合组件的性能指标对组件的结构参数进行了优化设计。实际制作的复合组件,得到泵浦光插入损耗
法国贝尚松理学院将于1966年4月25至26两日,举办激光应用研究讨论会。卡斯特勒(A. Kastler)为会议主席,法国与端士、英国、意大利、比利时等国的物理学家、工业界与医学界人士与生理学家等共220余名将参加会议。
When a dielectric meta-atom is placed into a subwavelength metallic aperture, 20-fold enhanced electromagnetic transmission through the aperture is realized at the meta-atom’s resonant frequency. Additionally, when the incident electromagnetic power incre
Gait recognition has been of great importance for disease diagnosis, rehabilitation assessment, as well as personal identification. Conventional gait analysis generally has to rely heavily on complex, expensive data acquisition and computing apparatus. To
日本文部省科学研究费补助金分配一览表,分门别类,项目繁多,现将散见在各部分的与激光领域有关的项目摘录如下。
本文讨论了饱和光栅的物理机制,分析了对撞锁模中的瞬态饱和光栅现象及其作用。分析表明,瞬态饱和光栅作用不足以用来解释对撞锁模技术提高饱和吸收体脉冲压缩效率的物理机制。
使用10.6μm连续波CO_2激光和几种工作气体,对熔石英实现了快速的激光刻蚀.得到了刻蚀速度高于200μm/s的干净、光滑的表面;并根据所提出的机理对观察到的实验结果进行了解释.
光雷达是光频波段的雷达。正如名称所指出的那样,这种技术是用光能代替射频能量。相应的元件也随之改变,因为虽然光雷达的聚焦和定向系统类似于微波天线,而所用的光源和光电探测器则与无线发送器和接收器大不相同。从光波长比一般用的雷达波长约短100,000倍的事实看来,这是不足为奇的。正是这个事实使光雷达成为观察大气的唯一有力的装置。