火箭扩展源x射线光谱学反射光栅的制造。

IF 2.2 3区物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS

Experimental Astronomy Pub Date : 2025-06-14 DOI:10.1007/s10686-025-10011-1

Drew M. Miles, Ross McCurdy, Michael Labella, Randall L. McEntaffer, Fabien Grisé, Jake McCoy, James H. Tutt

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引用次数: 0

摘要

扩展源x射线光谱火箭（tREXS）光栅光谱仪使用反射光栅模块从扩展的天文软x射线源收集光谱数据。利用电子束光刻（EBL）和互补的纳米加工工艺（包括KOH蚀刻）在硅衬底上制作了两个燃烧的主光栅。然后使用衬底保形压印光刻（SCIL）创建了191个副本的两个光栅主用于飞行仪器。对几个复制光栅的衍射效率进行了测量，在0.22 keV附近达到峰值，绝对效率约为70%，在0.18 - 0.8 keV的测量波段上平均绝对效率约为50%。在这里，我们详细介绍了光栅母片的纳米制造，包括EBL参数和trexs特定的制造考虑因素，以及用于生成最终仪器光栅的SCIL复制过程。讨论了光栅的特性和未来需要改进的地方。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Reflection grating fabrication for the Rockets for Extended-source X-ray Spectroscopy

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Reflection grating fabrication for the Rockets for Extended-source X-ray Spectroscopy

The Rockets for Extended-source X-ray Spectroscopy (tREXS) grating spectrograph uses modules of reflection gratings to collect spectroscopic data from extended astronomical sources of soft X-rays. Two blazed master gratings were produced on silicon substrates with electron-beam lithography (EBL) and complementary nanofabrication processes that include KOH etching. Substrate-conformal imprint lithography (SCIL) was then used to create 191 replicas of the two grating masters for use in the flight instrument. Diffraction efficiency was measured for several replica gratings, which achieve a peak of \( \varvec{>} \)70% absolute efficiency near 0.22 keV and an average of \( \varvec{\approx } \)50% absolute efficiency across the measured band, from 0.18 – 0.8 keV. Here we detail the nanofabrication of the grating masters, including the EBL parameters and tREXS-specific fabrication considerations, and the SCIL replication process used to generate the final instrument gratings. A discussion of grating characterization and areas for future improvement is also presented.

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来源期刊

Experimental Astronomy 地学天文-天文与天体物理

CiteScore

5.30

自引率

3.30%

发文量

审稿时长

6-12 weeks

期刊介绍： Many new instruments for observing astronomical objects at a variety of wavelengths have been and are continually being developed. Furthermore, a vast amount of effort is being put into the development of new techniques for data analysis in order to cope with great streams of data collected by these instruments. Experimental Astronomy acts as a medium for the publication of papers of contemporary scientific interest on astrophysical instrumentation and methods necessary for the conduct of astronomy at all wavelength fields. Experimental Astronomy publishes full-length articles, research letters and reviews on developments in detection techniques, instruments, and data analysis and image processing techniques. Occasional special issues are published, giving an in-depth presentation of the instrumentation and/or analysis connected with specific projects, such as satellite experiments or ground-based telescopes, or of specialized techniques.