The millimeter-wave rotational spectrum of fluorobenzene

The room-temperature rotational spectrum of fluorobenzene was studied in the frequency region 167-318 GHz. Rotational transitions were assigned and measured in the ground vibrational state, and all six excited vibrational states with energies below 600 cm(-1), i.e., nu(11) = 1, nu(11) = 2, nu(18b) = 1, nu(16a) = 1, nu(16b) = 1, and nu(6a) = 1. Accurate quartic-level spectroscopic constants were determined for all states, allowing spectral predictions well into the submillimeter region. The states nu(18b) = 1 and nu(16a), = 1 were found to be connected by a strong Coriolis interaction, which allowed precise determination of their energy separation, Delta E = 7.455088(3) cm(-1). Unambiguous assignment of vibrational modes was made on the basis of the calculated inertial defect and nuclear spin statistical weights. Rotational constants for the (13)C(4) isotopomer have also been redetermined and two new least-squares determinations of the geometry of fluorobenzene, r(0) and r(m)((1L)) are reported. (c) 2005 Elsevier Inc. All rights reserved.