A method for measuring temperatures and densities in hypersonic wind tunnel air flows using laser-induced O2 fluorescenceLaser-induced fluorescence in oxygen, in combination with Raman scattering, is shown to be an accurate means by which temperature, density, and their fluctuations due to turbulence can be measured in air flows associated with high-speed wind tunnels. For temperatures above 60 K and densities above 0.01 amagat, the uncertainty in the temperature and density measurements can be less than 2 and 3 percent, respectively, if the signal uncertainties are dominated by photon-statistical noise. The measurements are unaffected by collisional quenching and can be achieved with laser fluences for which nonlinear effects are insignificant. Temperature measurements using laser-induced fluorescence alone have been demonstrated at known densities in the range of low temperatures and densities which are expected in a hypersonic wind tunnel.
Document ID
19900035181
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Laufer, Gabriel (Analatom, Inc. Sunnyvale, CA, United States)
Fletcher, Douglas G. (Analatom, Inc. Sunnyvale, CA, United States)
Mckenzie, Robert L. (NASA Ames Research Center Moffett Field, CA, United States)