VIBRATIONAL-RELAXATION MEASUREMENTS IN AN EXPANDING FLOW USING SPONTANEOUS RAMAN-SCATTERING

Vibrational relaxation of nitrogen in a two-dimensional nozzle now is studied with spontaneous Raman scattering. An electric arc-driven shoc k tube operating as a reflected shock tunnel produces stagnation condi tions of 5600 K and 100 atm. A 248-nm KrF laser pulse is focused into the nozzle to produce spatially resolved spontaneous Raman spectra. Vi brational population distributions are derived from the spectra for th e states upsilon = 0 to upsilon = 8. The experimental results are comp ared with two theoretical models: 1) the Landau-Teller relaxation mode l and 2) a numerical solution of the master equations using transition rates derived from Schwartz, Slawsky, and Herzfeld (SSH) theory. We h ave measured a value for the Landau-Teller correction factor (phi) to be 1.0-1.5.