مرکز منطقه ای اطلاع رساني علوم و فناوري - MA1 - Laser-excited vibrational energy transfer studies of HF, CO, and NO

Abstract :

An electrically initiated pulsed HF chemical laser has been used to measure vibrational relaxation of HF ( $\\upsilon = 1$ ), CO ( $\\upsilon = 1$ ), and NO ( $\\upsilon = 1$ ) at 295 ± 2 K. The self-relaxation rate of HF highly dilute in argon is $(8.7 \\pm 0.1) \\times 10^{4} s^{-1}$ torr^-1and is independent of rotational level excitation over laser transitions $P_{1 \\rightarrow 0}(2) - P_{1 \\rightarrow 0}(9)$ . The rates at which O2, CO, and NO quench HF( $\\upsilon = 1$ ) have been found to be $350 \\pm 25, (2.5 \\pm 0.2) \\times 10^{3}$ and $(6.2 \\pm 0.3) \\times 10^{3}$ s^-1torr^-1, respectively. There is indirect evidence of transfer from HF( $\\upsilon = 1$ ) to the ( $\\upsilon = 2$ ) levels of NO and O2. Through the use of HF ( $\\upsilon = 1$ ) as a collisional pumping source we have measured the deactivation rates of CO ( $\\upsilon = 1$ ) by HF (V → R, T) and N2(V → V) to be 480 ± 25 s^-1torr^-1and 130 ± 15 s^-1torr^-1. Similarly, HF ( $\\upsilon = 1$ ) has been used to pump NO ( $\\upsilon = 1$ ) and the NO self-relaxation rate has been measured to be $(2.7 \\pm 0.2) \\times 10^{3}$ s^-1torr^-1; this rate is about a factor of 5 faster than would be predicted by the kinetic spectroscopy results of Billingsley and Callear [43].