Abstract
Several transitions in the far-infrared spectrum of the HCO radical have been detected by the technique of laser magnetic resonance (LMR). The spectra have been assigned to both a- and b-dipole transitions and have been fitted together with previous microwave, millimeter-wave, and infrared measurements to determine a full set of parameters for HCO in its ground state. In particular, signals arising from the avoided crossing of the levels 8 08 and 7 16 in a magnetic field have been analyzed and used to determine values for the off-diagonal components of the spinrotation, proton dipolar hyperfine, and anisotropic g-tensors which are responsible for the mixing of the states. The reduced spin-rotation parameter ( ϵ ̃ ab + ϵ ̃ ba ) has been separated into its component parts by the imposition of the constraint ϵ ab ϵ ba = A B .
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