Matsumura Shotaro, Osaka Taito, Inoue Ichiro, Matsuyama Satoshi, Yabashi Makina, Yamauchi Kazuto, Sano Yasuhisa
Opt Express. 2020 Aug 31;28(18):25706-25715. doi: 10.1364/OE.398590.
A high-resolution micro channel-cut crystal monochromator (µCCM) composed of an Si(220) crystal is developed for the purpose of narrowing the bandwidth of a reflection self-seeded X-ray free-electron laser. Subsurface damage on the monochromator, which distorts the wavefront and broadens the bandwidth of the monochromatic seed beam, was removed by using a plasma etching technique. High diffraction performance of the monochromator was confirmed through evaluation with coherent X-rays. Reflection self-seeding operation was tested with the Si(220) µCCM at SPring-8 Angstrom Compact free-electron laser. A narrow average bandwidth of 0.6 eV, which is five times narrower than the value previously reported [I. Inoue et al., Nat. Photonics13, 319 (2019)10.1038/s41566-019-0365-y], was successfully obtained at 9 keV. The narrow-band X-ray beams with high intensity realized in this study will further expand the capabilities of X-ray free-electron lasers.
为了缩小反射自种子X射线自由电子激光的带宽,研制了一种由Si(220)晶体组成的高分辨率微通道切割晶体单色仪(µCCM)。通过等离子体蚀刻技术去除了单色仪表面下的损伤,这种损伤会使波前畸变并加宽单色种子束的带宽。通过用相干X射线进行评估,证实了单色仪具有高衍射性能。在SPring-8埃紧凑型自由电子激光装置上用Si(220)µCCM进行了反射自种子运行测试。在9keV能量下成功获得了0.6eV的窄平均带宽,这比之前报道的值[I. Inoue等人,《自然·光子学》13, 319 (2019)10.1038/s41566-019-0365-y]窄五倍。本研究中实现的高强度窄带X射线束将进一步扩展X射线自由电子激光的能力。
