The Astrophysical Journal (Jan 2024)

Laboratory Transition-rate Measurement of the Coronal Intercombination Line of Ar xv by Time-resolved Laser Spectroscopy

  • Naoki Kimura,
  • Yoshiki Miya,
  • Daiki Ito,
  • Priti,
  • Daiji Kato,
  • Masaaki Baba,
  • Susumu Kuma,
  • Toshiyuki Azuma,
  • Nobuyuki Nakamura

DOI
https://doi.org/10.3847/1538-4357/ad643e
Journal volume & issue
Vol. 972, no. 1
p. 12

Abstract

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The extreme-ultraviolet emission line (424 Å) of the intercombination 1 s ^2 2 s ^2 ^1 S _0 –1 s ^2 2 s 2 p ^3 P _1 transition of Ar xv can potentially characterize the electron temperature of astrophysical plasma. Various theoretical studies have investigated the intercombination transition rate, which is essential for the plasma diagnostics; however, experimental difficulties have prevented its measurement. We present here measurement of the lifetime of the ^3 P _1 excited state of Ar xv , providing the experimental value of the intercombination transition rate. Employing time-resolved plasma-assisted laser spectroscopy, a method we recently demonstrated, enables us to measure this submicrosecond lifetime. The experimental result exhibits a 25%–43% higher transition rate than theoretical predictions.

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