Pressure broadening of the ν3 band of methane

Experimental results on the pressure broadening of NO 2 for collisions with the noble gases He, Ne, Ar, Kr, and Xe are presented. The broadening coefficients of six lines in the n 3 band near 1616.85 cm 01 with quantum numbers 2 £ N Љ £ 44, 1 £ K Љ a £ 5, and of seven lines in the n 2 / n 3 0 n 2 ba

Pressure broadening coefficients for an infrared transition of the methyl radical have been measured for the first time. CH 3 radicals, generated by pyrolyzing di-tert-butyl peroxide in a flow of either N 2 or Ar, were probed using a tunable diode laser and a multipass absorption cell. The Lorentz h

In this study we report the first measurements of the pressure-induced lineshift coefficients due to Ar, He, O 2 , and N 2 for 22 rovibrational lines from P(53) to R( ), belonging to the 2 3 band of 16 O 12 C 32 S at 4100 cm Ϫ1 . The lineshift results were obtained from the simultaneous record of th

Double-resonance spectra were recorded for several rotatiomd sublevels of the (21) The observed vibrational energy is 5968.1 cm-', \_ 3, Al) vibrational level of methane. m good agreement with local-mode theory\_ The effective rotational constant for this level was found to be 5.31 cm-' . This unex

A tunable dye 11tser coupled with photoxoustic detection has been utdized to obtain t!x pressure broadening coefficient of the 6196.82 A line in the 6190 A vibration-rotation band of CHa\_ The pressure broadening coefficient W-B found to be 0.086 + 0.006 cm-ljatm. This is m close ageement with simii