Highly efficient and aberration-free off-plane grating spectrometer and monochromator for EUV-soft X-ray applications.

IF 19.4 1区 物理与天体物理 Q1 Physics and Astronomy Light, science & applications Pub Date : 2024-01-08 DOI:10.1038/s41377-023-01342-9
Jie Li, Kui Li, Xiaoshi Zhang, Dimitar Popmintchev, Hao Xu, Yutong Wang, Ruixuan Li, Guangyin Zhang, Jiyue Tang, Jin Niu, Yongjun Ma, Runyu Meng, Changjun Ke, Jisi Qiu, Yunfeng Ma, Tenio Popmintchev, Zhongwei Fan
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Abstract

We demonstrate a novel flat-field, dual-optic imaging EUV-soft X-ray spectrometer and monochromator that attains an unprecedented throughput efficiency exceeding 60% by design, along with a superb spectral resolution of λ/Δλ > 200 accomplished without employing variable line spacing gratings. Exploiting the benefits of the conical diffraction geometry, the optical system is globally optimized in multidimensional parameter space to guarantee optimal imaging performance over a broad spectral range while maintaining circular and elliptical polarization states at the first, second, and third diffraction orders. Moreover, our analysis indicates minimal temporal dispersion, with pulse broadening confined within 80 fs tail-to-tail and an FWHM value of 29 fs, which enables ultrafast spectroscopic and pump-probe studies with femtosecond accuracy. Furthermore, the spectrometer can be effortlessly transformed into a monochromator spanning the EUV-soft X-ray spectral region using a single grating with an aberration-free spatial profile. Such capability allows coherent diffractive imaging applications to be conducted with highly monochromatic light in a broad spectral range and extended to the soft X-ray region with minimal photon loss, thus facilitating state-of-the-art imaging of intricate nano- and bio-systems, with a significantly enhanced spatiotemporal resolution, down to the nanometer-femtosecond level.

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用于超紫外软 X 射线应用的高效无像差平面外光栅光谱仪和单色仪。
我们展示了一种新颖的平场双光学成像超紫外软X射线光谱仪和单色仪,其设计实现了前所未有的超过60%的吞吐效率,同时在不使用可变线间距光栅的情况下实现了λ/Δλ > 200的超高光谱分辨率。利用锥形衍射几何的优势,光学系统在多维参数空间中进行了全局优化,以确保在宽光谱范围内实现最佳成像性能,同时在第一、第二和第三衍射阶保持圆偏振和椭圆偏振状态。此外,我们的分析表明时间色散极小,脉冲展宽限制在 80 fs 尾对尾范围内,FWHM 值为 29 fs,从而实现了飞秒级精度的超快光谱和泵探研究。此外,该光谱仪还可以毫不费力地转化为单色仪,使用无像差空间轮廓的单个光栅,横跨超紫外-软 X 射线光谱区域。这种能力使相干衍射成像应用能够在宽光谱范围内使用高度单色光,并以最小的光子损耗扩展到软 X 射线区域,从而促进对复杂的纳米和生物系统进行最先进的成像,并显著提高时空分辨率,达到纳米-飞秒级别。
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来源期刊
CiteScore
27.00
自引率
2.60%
发文量
331
审稿时长
20 weeks
期刊介绍: Light: Science & Applications is an open-access, fully peer-reviewed publication.It publishes high-quality optics and photonics research globally, covering fundamental research and important issues in engineering and applied sciences related to optics and photonics.
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