Self-broadening, self-shift and self-mixing in the ν2, 2ν2 and ν4 bands of NH3

Self-broadening coefficients of NH 3 in the m 2 and m 4 bands and absolute line intensities in the m 2 band have been measured at room temperature for some selected lines in the P -and R-branches. Using a Fourier transform spectrometer, line intensities and collisional widths were obtained by fittin

The collisional line broadening of H 2 S transitions in the n 1 and n 3 bands was measured with H 2 S itself and with air as perturbers by applying a diode laser spectrometer in pulsed mode. Altogether 17 lines from the R-branch of the n 1 band (3 £ J Љ £ 17, 0 £ K Љ a £ 6) and 5 lines from the R-br

The self-broadening coefficients and the linestrengths of 30 lines in the n 2 and n 5 fundamental bands of CH 3 F have been measured at high resolution in the range 1417-1553 cm 01 , using a tunable diode-laser spectrometer. The lineshape parameters were obtained by fitting noncorrelated Galatry and

The quantum number dependence of self-and air-broadening coefficients of 33 transitions in the n 3 band of SO 2 with 4 £ JЉ £ 61, 0 £ K a Љ £ 18 was measured with a pulse-driven diode laser spectrometer. Twenty-five lines of the Pbranch, five lines of the R-branch, and three lines of the Q-branch we

The self-broadening coefficients for 118 lines in the n 1 / n 3 band of 32 SO 2 , 5 lines in the n 1 / n 3 band of 34 SO 2 , 10 lines in the n 1 / n 2 / n 3 0 n 2 band of 32 SO 2 , and 13 lines in the 2n 2 band of H 2 S were measured in the spectral region between 2464 and 2503 cm 01 by applying a t

To complete the analysis of the complex infrared spectra of 14 NH 3 in the 4-to 8-µm region, we assigned nearly 1200 transitions in the 3ν 2 -ν 2 , ν 2 + ν 4 -ν 2 , ν 1 -ν 2 , ν 3 -ν 2 , 2ν 4 -ν 2 , and 4ν 2 -ν 2 hot bands using the upper state energy levels determined by our previous studies at 4 a