The Ground State Rotational Spectra of HDCO and D2CO

The ground state rotational spectrum has been measured from 1 to 2600 GHz. These new measurements together with the older ones have been fitted to a standard A-reduced Watson-type Hamiltonian. The accuracy of the rotational and centrifugal distortion (including some octic ones) constants has been no

Ground state rotational constants of D 2 M Se and HD M Se, M ϭ 76, 77, 78, 80, and 82, have been determined up to octic centrifugal distortion terms from ground state combination differences. These were obtained from rotational analyses of the 2 , 1 , and 3 bands both of natural and 80 Se monoisotop

The rotational analysis in the ground vibrational state has been carried out for CH 3 D by using the ground state combination differences. More than 1500 allowed and 2500 forbidden transitions from the fundamental bands 3 , 5 , and 6 were used to determine 12 rotational parameters, which reproduce t

This paper presents the analysis of the spectra of SiDF 3 in its vibrational ground and v 4 ϭ 1 states. The pure rotational spectrum of the ground state was measured up to 903 GHz ( JЉ ϭ 65). Rotational, quartic, and sextic centrifugal distortion constants were accurately determined. Furthermore the

A careful rotational analysis of the ground vibrational state of the CHD 3 molecule is made on the basis of the ground state combination differences method using, as the initial information, transitions from 12 infrared absorption bands: n 3 (A 1 ), n 6 (E), n 5 (E), 2n 3 (A 1 ), 2n 6 (A 1 ), 2n 6 (