Hydroxide ion, deuterium isotopic species, X 1Σ+
Species tag 018502
Date of EntryDec. 2006
ContributorH. S. P. Müller

The fit combines pure rotational as well as rovibrational data of three isotopic species. The OH rotational data were taken from
(1) F. Matsushima, T. Yonezu, T. Okabe, K. Tomaru, and Y. Moriwaki, 2006, J. Mol. Spectrosc., 235, 261
; and
(2) D. J. Liu, W. C. Ho, and T. Oka, 1987, J. Chem. Phys., 87, 2442.
The OD rotational data were published by
(3) G. Cazzoli and C. Puzzarini, 2005, J. Chem. Phys., 123, Art.-No. 041101
; and
(4) G. Cazzoli and C. Puzzarini, 2006, Astrophys. J., 648, L79.
Rovibrational transitions for OH and 18OH were taken from
(5) J. C. Owrutski, N. H. Rosenbaum, L. M. Tack, and R. J. Saykally, 1985, J. Chem. Phys., 83, 5338
those of OD from
(6) B. D. Rehfuss, M. W. Crofton, and T. Oka, 1986, J. Chem. Phys., 85, 1785
Predictions with J > 10 should be viewed with some caution; lower-J predictions may be fairly reliable if and only if ion drift effects had negligible effects on the infrared data.
The dipole moment was assumed to agree with that of the main isotopic species, see e017502.cat.

Lines Listed22
Frequency / GHz< 12478
Max. J22
log STR0-10.0
log STR1-10.0
Isotope Corr.-3.941
Egy / (cm-1)0.0
 µa / D1.04
 µb / D 
 µc / D 
 A / MHz 
 B / MHz299331.6
 C / MHz 
detected in ISM/CSMno

Database maintained by Holger S. P. Müller and Sven Thorwirth, programming by D. Roth and F. Schloeder