The transition frequencies were taken from
(1) M. Le Guennec, J. Demaison, G. Wlodarczak, and C. J. Marsden,
1993, J. Mol. Spectrosc. 160, 471.
The uncertainties chosen in the present calculation are 30 kHz
(better than 50 kHz was stated).
The purely K-dependent parameters A,
DK, and an estimate of HK,
needed to obtain reasonable intensities, were taken from
the main isotopic species as described in
(2) H. S. P. Müller, S. Thorwirth, and F. Lewen,
2020, J. Mol. Struct. 1207, Art. No. 127769,
based on ground state combination loops from
(3) H. S. P. Müller, P. Pracna, and V.-M. Horneman,
2002, J. Mol. Spectrosc. 216, 397.
The calculations should be sufficient for all observational
purposes. Some caution may be advised for transitions having
high values of J and K.
At low temperatures, it may be necessary to discern between
A-CH3C13CD and
E-CH3C13CD.
The A state levels are described by K = 3n,
those of E state by K = 3n ± 1.
The nuclear spin-weight ratio is 2 : 1
for A-CH3C13CD
with K > 0 and all other states, respectively.
The JK = 11 level is the lowest E state level.
It is 5.562 cm1 above ground.
The dipole moment was assumed to agree with that of
CH3CCD, which was taken from
(4) J. S. Muenter, and V. W. Laurie,
1966, J. Chem. Phys., 45, 855.
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