Millimeter- and submillimeter-wave spectroscopy of HBS and DBS in vibrationally excited states

The pure rotational spectrum of the astrophysically very important linear molecule cyanoacetylene, HC 3 N, in the ground and vibrationally excited states has been studied in selected regions from 118 to 814 GHz using the Cologne terahertz spectrometer. Vibrational satellites appendant to the followi

The pure rotational spectrum of the deuterated ethynyl radical, CCD, in the vz = 1' and uz=2' states was observed in the mlllimeter-and submillimeter-wave region, yielding further information on the vibronic mteraction between the % %+ and A % states. Precise molecular constants have been determined

The rotational spectrum of DC 5 N has been investigated in the millimeter-wave region for 16 vibrationally excited states which approximately lie below 760 cm K1 , namely (v 6 v 7 v 8 v 9 v 10 v 11 )Z( 000001), ( 000002), ( 000003), ( 000005), ( 000010), ( 000020), (000100) (001000), ( 010000), ( 10

Measurements of the rotational spectrum of HCN in excited vibrational states have been extended to higher-J values. The transitions reach J ¼ 8 7 around 710 GHz for most vibrational states studied in this investigation and J ¼ 22 21 near 2 THz for the (020) and ( 030) vibrational states. Using a pur