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Seely JF, Hudson LT, Glover JL, et al. Ultra-thin curved transmission crystals for high resolving power (up to E/ΔE = 6300) x-ray spectroscopy in the 6-13  keV energy range. Opt Lett. 2014;39(24):6839-42doi: 10.1364/OL.39.006839.
Seely, J. F., Hudson, L. T., Glover, J. L., Henins, A., & Pereira, N. (2014). Ultra-thin curved transmission crystals for high resolving power (up to E/ΔE = 6300) x-ray spectroscopy in the 6-13  keV energy range. Optics letters, 39(24), 6839-42. https://doi.org/10.1364/OL.39.006839
Seely, John F, et al. "Ultra-thin curved transmission crystals for high resolving power (up to E/ΔE = 6300) x-ray spectroscopy in the 6-13  keV energy range." Optics letters vol. 39,24 (2014): 6839-42. doi: https://doi.org/10.1364/OL.39.006839
Seely JF, Hudson LT, Glover JL, Henins A, Pereira N. Ultra-thin curved transmission crystals for high resolving power (up to E/ΔE = 6300) x-ray spectroscopy in the 6-13  keV energy range. Opt Lett. 2014 Dec 15;39(24):6839-42. doi: 10.1364/OL.39.006839. PMID: 25503010.
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Opt Lett. 2014 Dec 15;39(24):6839-42. doi: 10.1364/OL.39.006839.

Ultra-thin curved transmission crystals for high resolving power (up to E/ΔE = 6300) x-ray spectroscopy in the 6-13  keV energy range.

Optics letters

John F Seely, Lawrence T Hudson, Jack L Glover, Albert Henins, Nino Pereira

PMID: 25503010 DOI: 10.1364/OL.39.006839

Abstract

Ultra-thin curved transmission crystals operating in the Cauchois spectrometer geometry were evaluated for the purpose of achieving high spectral resolution in the 6-13 keV x-ray energy range. The crystals were silicon (111) and sapphire R-cut wafers, each 18 μm thick, and a silicon (100) wafer of 50-μm thickness. The W Lα(1) spectral line at 8.398 keV from a laboratory source was used to evaluate the resolution. The highest crystal resolving power, E/ΔE=6300, was achieved by diffraction from the (33-1) planes of the Si(100) wafer that was cylindrically bent to a radius of curvature of 254 mm, where the (33-1) planes have an asymmetric angle of 13.26° from the normal of the crystal surface facing the x-ray source. This work demonstrates the ability to measure highly resolved line shapes of the K transitions of the elements Fe through Kr and the L transitions of the elements Gd through Th using a relatively compact spectrometer optical system and readily available thin commercial wafers. The intended application is as a diagnostic of laser-produced plasmas where the presence of multiple charged states and broadenings from high temperature and density requires high-resolution methods that are robust in a noisy source environment.

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