Submillimeter-Wave Spectroscopy of the Rotational Transitions in the v6 = 1 Vibrational State of 13CH3F

We studied the hyperfine components of the ( J ϭ 10-9, Kl ϭ 9) rotational transition in the v 6 ϭ 1 excited vibrational state of CH 3 I, using collinear infrared and mm-wave radiations. The Doppler-free double-resonance technique allowed an accurate determination of the collisional broadening parame

The submillimeter-wave rotational transitions of HOC ϩ in the 2 excited state are first detected using the double-modulation method, and the precise transition frequencies and the much improved molecular constants are obtained. The measurements of the ground state HOC ϩ and DOC ϩ submillimeter-wave

Submillimeter-wave absorption spectrum of CO in electronically excited a 3 ⌸ state was observed in the 540 -830 GHz region by using a phase-locked BWO spectrometer. New rotational transitions up to J ϭ 9-8 in the vibrational excited states up to v ϭ 5 were analyzed accompanied with previous observat

The submillimeter-wave rotational transitions of TiCl in the ground state were observed using a double-modulation technique. TiCl was generated in a DC-discharge of a mixture of TiCl 4 vapor (less than 1 mTorr) and Ar buffer gas (80 mTorr) at a current of 200 mA. The 4 3/2 , 4 5/2 , 4 7/2 , and 4 9/

A representation of the effective rotational Hamiltonian in the form of optimum versions of a rational series of the perturbation theory is suggested for nonisolated molecular states. This representation is used to analyze the most complete set of precise transition frequencies in the rotational spe