Optical design and efficiency measurement of an extreme ultraviolet high-resolution spectrometer for unresolved transition array research

Tomoko Kawate; Hiroyuki A. Sakaue; Chihiro Suzuki; Nobuyuki Nakamura; Kiyohisa Tanaka; Eiken Nakamura; Keisuke Fujii; Daiji Kato; Akira Sasaki; Izumi Murakami

doi:10.1063/5.0250066

Optical design and efficiency measurement of an extreme ultraviolet high-resolution spectrometer for unresolved transition array research

Tomoko Kawate, Hiroyuki A. Sakaue, Chihiro Suzuki, Nobuyuki Nakamura, Kiyohisa Tanaka, Eiken Nakamura, Keisuke Fujii, Daiji Kato, Akira Sasaki, Izumi Murakami

Diagnostics and Control

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Abstract

Understanding the structures of the unresolved transition array (UTA) observed in extreme ultraviolet (EUV) spectra from many-electron atoms is crucial for various applications, including fusion science and nanolithography. To measure the fine structure of the UTA from tungsten and tin at around 5 and 13.5 nm at the Tokyo electron beam ion trap, we developed a high-resolution EUV spectrometer. The designed spectrometer achieves a resolving power of λ/dλ > 5000 at 5 and 13.5 nm. The fabricated large-area grating was experimentally examined at beamline BL5B of the UVSOR synchrotron facility to evaluate the diffraction efficiencies and their variation across the ruled area. The measured diffraction efficiencies are 0.65% ± 0.07% at 5 nm (second order) and 7.9% ± 0.2% at 13.5 nm (first order). The variation in the diffraction efficiency across the ruled area is 2.2%, 13.6%, and 10.0% in zeroth, first, and second order diffractions, respectively. The discrepancies in diffraction efficiencies between the experiments and the calculations were 5.2%, 29%, and 35% for the zeroth, first, and second diffraction orders, respectively.

Original language	English
Article number	043512
Journal	Review of Scientific Instruments
Volume	96
Issue number	4
DOIs	https://doi.org/10.1063/5.0250066
State	Published - Apr 1 2025

Funding

The authors acknowledge the staff of UVSOR for the support of the experiments. The work was supported by JSPS KAKENHI Grant Nos. 21H04460 and 24K00606. A part of this work was conducted at the BL5B of the UVSOR synchrotron facility, Institute for Molecular Science (IMS Program Nos. 23IMS6661 and 23IMS6856).

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title = "Optical design and efficiency measurement of an extreme ultraviolet high-resolution spectrometer for unresolved transition array research",

abstract = "Understanding the structures of the unresolved transition array (UTA) observed in extreme ultraviolet (EUV) spectra from many-electron atoms is crucial for various applications, including fusion science and nanolithography. To measure the fine structure of the UTA from tungsten and tin at around 5 and 13.5 nm at the Tokyo electron beam ion trap, we developed a high-resolution EUV spectrometer. The designed spectrometer achieves a resolving power of λ/dλ > 5000 at 5 and 13.5 nm. The fabricated large-area grating was experimentally examined at beamline BL5B of the UVSOR synchrotron facility to evaluate the diffraction efficiencies and their variation across the ruled area. The measured diffraction efficiencies are 0.65\% ± 0.07\% at 5 nm (second order) and 7.9\% ± 0.2\% at 13.5 nm (first order). The variation in the diffraction efficiency across the ruled area is 2.2\%, 13.6\%, and 10.0\% in zeroth, first, and second order diffractions, respectively. The discrepancies in diffraction efficiencies between the experiments and the calculations were 5.2\%, 29\%, and 35\% for the zeroth, first, and second diffraction orders, respectively.",

author = "Tomoko Kawate and Sakaue, \{Hiroyuki A.\} and Chihiro Suzuki and Nobuyuki Nakamura and Kiyohisa Tanaka and Eiken Nakamura and Keisuke Fujii and Daiji Kato and Akira Sasaki and Izumi Murakami",

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AU - Kawate, Tomoko

AU - Sakaue, Hiroyuki A.

AU - Suzuki, Chihiro

AU - Nakamura, Nobuyuki

AU - Tanaka, Kiyohisa

AU - Nakamura, Eiken

AU - Fujii, Keisuke

AU - Kato, Daiji

AU - Sasaki, Akira

AU - Murakami, Izumi

PY - 2025/4/1

Y1 - 2025/4/1

N2 - Understanding the structures of the unresolved transition array (UTA) observed in extreme ultraviolet (EUV) spectra from many-electron atoms is crucial for various applications, including fusion science and nanolithography. To measure the fine structure of the UTA from tungsten and tin at around 5 and 13.5 nm at the Tokyo electron beam ion trap, we developed a high-resolution EUV spectrometer. The designed spectrometer achieves a resolving power of λ/dλ > 5000 at 5 and 13.5 nm. The fabricated large-area grating was experimentally examined at beamline BL5B of the UVSOR synchrotron facility to evaluate the diffraction efficiencies and their variation across the ruled area. The measured diffraction efficiencies are 0.65% ± 0.07% at 5 nm (second order) and 7.9% ± 0.2% at 13.5 nm (first order). The variation in the diffraction efficiency across the ruled area is 2.2%, 13.6%, and 10.0% in zeroth, first, and second order diffractions, respectively. The discrepancies in diffraction efficiencies between the experiments and the calculations were 5.2%, 29%, and 35% for the zeroth, first, and second diffraction orders, respectively.

AB - Understanding the structures of the unresolved transition array (UTA) observed in extreme ultraviolet (EUV) spectra from many-electron atoms is crucial for various applications, including fusion science and nanolithography. To measure the fine structure of the UTA from tungsten and tin at around 5 and 13.5 nm at the Tokyo electron beam ion trap, we developed a high-resolution EUV spectrometer. The designed spectrometer achieves a resolving power of λ/dλ > 5000 at 5 and 13.5 nm. The fabricated large-area grating was experimentally examined at beamline BL5B of the UVSOR synchrotron facility to evaluate the diffraction efficiencies and their variation across the ruled area. The measured diffraction efficiencies are 0.65% ± 0.07% at 5 nm (second order) and 7.9% ± 0.2% at 13.5 nm (first order). The variation in the diffraction efficiency across the ruled area is 2.2%, 13.6%, and 10.0% in zeroth, first, and second order diffractions, respectively. The discrepancies in diffraction efficiencies between the experiments and the calculations were 5.2%, 29%, and 35% for the zeroth, first, and second diffraction orders, respectively.

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JO - Review of Scientific Instruments

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Optical design and efficiency measurement of an extreme ultraviolet high-resolution spectrometer for unresolved transition array research

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