The millimeter and submillimeter wave spectrum of the ν8 + ν9 state of HNO3

The millimeter/submillimeter transitions of the n 5 -2n 9 interacting bands of HNO 3 have been measured in the symmetric top limit. Torsional splittings in both vibrational bands have been observed. The 2n 9 splitting is due to the torsional motion of H around the NO whereas the n 5 splitting is due

Chlorine nitrate is a molecule of interest in atmospheric studies because of its role as a reservoir species, removing both chlorine and nitrogen species from catalytic cycles of ozone destruction. The ground and ν 9 vibrational states have been previously studied in the millimeter and submillimeter

The high-resolution FTIR spectrum of the n 8 / n 9 band of HNO 3 around 1205 cm 01 has been measured and analyzed. The bright state was found to be strongly perturbed by its neighboring dark state n 6 / n 7 at the coincident levels. Taking account of the DK Å {2 anharmonic resonance, a simultaneous

Using Fourier transform spectra recorded at 25 and \(12 \mu \mathrm{m}\), it has been possible to perform the first analysis of the \(3 \nu_{9}-2 \nu_{9}, 3 \nu_{9}-\nu_{5}\) and \(3 \nu_{9}-\nu_{9}\) hot bands of \(\mathrm{HNO}_{3}\) located at \(392.4 \mathrm{~cm}^{-1}\), \(409.8 \mathrm{~cm}^{-1}

A high-resolution analysis of the {ν 2 , ν 3 } and {ν 4 , ν 6 } bands of the two isotopomers of chloryl fluoride F 35 ClO 2 and F 37 ClO 2 has been carried out for the first time using simultaneously infrared spectra recorded around 16 µm and 26 µm with a resolution of ca. 0.003 cm -1 and microwave