K. Kawase, H. Zen, T. Sakai, Y. Hayakawa, H. Ohgaki, R. Hajima
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引用次数: 0
摘要
高次谐波发生(HHG)产生的光子的最大能量随驱动激光波长的增加而增加。自由电子激光器(FEL)是一种在中红外波长范围内可连续调谐的光源,对于研究高次谐波发生中可获得光子能量的扩展非常有用。最近,日本大学电子束研究与应用实验室(LEBRA)的红外 FEL 更换了减压器磁铁,从而提高了 FEL 的输出功率。在此,我们对 FEL 的脉冲持续时间和焦点光束大小进行了评估,结果表明 LEBRA FEL 在 44 MHz 波束重复模式下使用 2-μm 和 3-μm 激光波长可以驱动 HHG。
Beam characterization of mid-infrared free electron laser to drive high-harmonic generation
The maximum energy of photons from high-harmonic generation (HHG) increases with the wavelength of the driving laser. A free electron laser (FEL) is a continuously tunable light source in the mid-infrared wavelength range and it is useful for investigating the extension of the accessible photon energy in HHG. Recently, the undulator magnets of the infrared FEL at the Laboratory for Electron Beam Research and Application (LEBRA), Nihon University, have been replaced, and then the output power of the FEL has increased. Here, we evaluate the pulse duration and focal beam size of the FEL and show that the LEBRA FEL with 2-μm and 3-μm laser wavelengths under a 44-MHz bunch repetition mode can drive HHG.
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