Line strengths of rovibrational and rotational transitions in the X2Π ground state of OH

@article{Brooke2015LineSO,
  title={Line strengths of rovibrational and rotational transitions in the X2$\Pi$ ground state of OH},
  author={James S. A. Brooke and Peter F. Bernath and Colin M. Western and Christopher Sneden and Melike Afcsar and Gang Li and Iouli E. Gordon},
  journal={Journal of Quantitative Spectroscopy \& Radiative Transfer},
  year={2015},
  volume={168},
  pages={142-157}
}
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Note: Improved line strengths of rovibrational and rotational transitions within the X(3)Σ(-) ground state of NH.

The method of this conversion has recently been improved during other work on the OH X(2)Π rovibrational transitions, by removing an approximation that was present previously and has been applied to the NH line list, resulting in more accurate transition strengths.

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References

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Line strengths of rovibrational and rotational transitions within the X³Σ⁻ ground state of NH.

A new line list for rovibrational and rotational transitions, including fine structure, within the NH X³Σ⁻ ground state has been created, which will be useful for the study of NH in astronomy, cold and ultracold molecular systems, and in the nitrogen chemistry of combustion.

Note: Improved line strengths of rovibrational and rotational transitions within the X(3)Σ(-) ground state of NH.

The method of this conversion has recently been improved during other work on the OH X(2)Π rovibrational transitions, by removing an approximation that was present previously and has been applied to the NH line list, resulting in more accurate transition strengths.

Calculated vibrational transition probabilities of OH(X2Π)

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Abstract The solar spectrum offered the opportunity to discover OH lines with high rotational quantum numbers, which do not appear on laboratory spectra. On solar absorption spectra, we have
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