Line positions and intersities for the ν1 + ν2 and ν2 + ν3 bands of 16O3

High-resolution Fourier transform spectra recorded in the \(2270-2400 \mathrm{~cm}^{-1}\) and \(1520-1600\) \(\mathrm{cm}^{-1}\) spectral regions have been used to measure, up to very high \(N\) values, the positions of lines with \(K_{a}=0-9\) of the \(\nu_{2}+v_{3}\) and \(\nu_{2}+\nu_{3}-\nu_{2}\

The infrared spectra of 16 O 3 have been recorded in the 3700 cm 01 region, with a Fourier transform spectrometer at 0.008 cm 01 resolution. A White-type cell, ᐉ Å 32.16 m, filled with 42.8 Torr O 3 was used. This spectral region corresponds to the n 2 / 3n 3 and n 1 / n 2 / 2n 3 bands. The n 2 / 3n

High resolution Fourier transform absorption spectra of the 14 N 16 O 2 molecule recorded in the 3000-3400 cm 01 and 1520-1600 cm 01 spectral regions have been analyzed. In this way lines of the 2n 3 , 4n 2 , 2n 2 / n 3 , and 2n 3 0 n 3 bands of 14 N 16 O 2 have been assigned with K a values ranging

The 2nu1 + nu2 + 3nu3 band of ozone, which occurs in the 5700-cm-1 region, has been observed for the first time using a Fourier Transform Spectrometer, operating at 0.008 cm-1 resolution and with a large pathlength x pressure product (3216 cm x 28.3 Torr). The assignment of rotation-vibration transi