THE ROTATIONAL SPECTRUM OF H2TE

In the present work, we study the spectrum of the H2Te molecule in the submillimeter-wave and far infrared region. An important aim of this investigation is the further experimental characterization of the anom alous ''four-fold cluster effect'' exhibited by the rotational energy levels in the vibrational ground state of H2Te. The spectrum in the re gion 90-472 GHz was measured with a source-modulated millimeter-wave s pectrometer and that between 600 and 1600 GHz with a far-infrared side band spectrometer. The far infrared spectrum from 30 to 360 cm(-1) was measured with a Bruker IFS 120 HR interferometer attached to a 3 m lo ng cell. We have assigned 224 submillimeter-wave lines and 1695 FIR li nes. These observed data were supplemented by a large number of ground state combination differences derived from rotation-vibration bands o f H2Te, and the resulting large data set was analyzed by means of a mo dified Watson Hamiltonian. Accurate sets of rotational and centrifugal distortion constants for all eight tellurium isotopomers were obtaine d. (C) 1996 Academic Press, Inc.