Hyperfine splitting measurements on the 6265 Å and 6507 Å lines of seven Xe isotopes by LIF on a beam of metastable Xe(3P0,2) atoms
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Cited by (42)
Theoretical analysis of the relativistic hyperfine interaction in <sup>131</sup>Xe I
2020, Journal of Quantitative Spectroscopy and Radiative TransferCitation Excerpt :Nevertheless, the lack of these data has been shown, particularly with respect to the case of heavy atoms such as xenon [11–12]. The values of the Landé gJ-factors and hyperfine constants in 129Xe have been experimentally measured in the past decades for many transitions that span the wavelength range 0.8-2.5 µm in the near infrared spectra [13–32] and theoretically calculated using different theoretical models [14–16,23–24]. Recently, we presented our theoretical data for the Landé gJ-factors and the magnetic dipole hyperfine constant for the levels belonging to the 6s[K]J, 4f [K]J, 5d[K]J, 6p[K]J, 7s[K]J, 5f [K]J, 6d[K]J, 7p[K]J and 8s[K]J intermediate Rydberg series in the heavy xenon-129 isotope [23].
The relativistic computations of spectral lines of <sup>129</sup>Xe I
2019, Results in PhysicsNuclear Data Sheets for A = 129
2014, Nuclear Data SheetsHyperfine structure of some near-infrared Xe i and Xe II lines
2011, Spectrochimica Acta - Part B Atomic SpectroscopyCitation Excerpt :The IS and HFS constants of numerous short-lived xenon isotopes were investigated by collisional ionization laser spectroscopy at the ISOLDE facility at CERN [7]. Geisen et al. [8] investigated the 6s 1/2[1/2]0 → 8p1/2[1/2]1 transition at 626.5 nm and the 6s3/2[3/2]2 → 5d3/2[P]3 transition at 650.7 nm by means of Laser-Induced Fluorescence (LIF) spectroscopy on a beam of metastable Xe(3P2) and Xe(3P0) atoms. The advent of semiconductor diode lasers allowed one to extend Doppler-free laser spectroscopy investigations in the near infrared spectral region.
Nuclear Data Sheets for A = 131
2006, Nuclear Data Sheets