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Line Strengths of Rovibrational and Rotational Transitions in the Ground State of OH

Research output: Research - peer-reviewArticle

  • James S.A. Brooke
  • Peter F. Bernath
  • Colin M. Western
  • Christopher Sneden
  • Melike Afşar
  • Gang Li
  • Iouli E. Gordon
Original languageEnglish
Pages (from-to)142-157
Number of pages16
JournalJournal of Quantitative Spectroscopy and Radiative Transfer
Early online date6 Aug 2015
StatePublished - Jan 2016


A new line list including positions and absolute transition strengths (in the form of Einstein A values and oscillator strengths) has been produced for the OH ground X 2 Π state rovibrational (Meinel system) and pure rotational transitions. All possible transitions are included with v ′ and v ″ up to 13, and J up to between 9.5 and 59.5, depending on the band. An updated fit to determine molecular constants has been performed, which includes some new rotational data and a simultaneous fitting of all molecular constants. The absolute transition strengths are based on a new dipole moment function, which is a combination of two high level ab initio calculations. The calculations show good agreement with an experimental v=1 lifetime, experimental μ v values, and Δv=2 line intensity ratios from an observed spectrum. To achieve this good agreement, an alteration in the method of converting matrix elements from Hund's case (b) to (a) was made. Partitions sums have been calculated using the new energy levels, for the temperature range 5-6000 K, which extends the previously available (in HITRAN) 70-3000 K range. The resulting absolute transition strengths have been used to calculate O abundances in the Sun, Arcturus, and two red giants in the Galactic open and globular clusters M67 and M71. Literature data based mainly on [O I] lines are available for the Sun and Arcturus, and excellent agreement is found.

    Research areas

  • OH hydroxyl radical, Line intensities, Einstein A values, Dipole moment function, Meinel system, Line lists

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