Further Assessment of Infrared Data From Aircraft and Rocket Probes.

Abstract

Measurements from an aircraft and rockets of the yield of 2.8-3.1 micrometers-band photons from air irradiated by ionizing particles are evaluated. The night-time column emission in aurora, viewed from below by a sensitive radiometer with less than 1 km field of view, is found to be temporally-spatially correlated with the column energy input to within a few sec and a few km. The 'equilibrium' chemiluminous efficiency in the SWIR band, measured with lower-resolution instruments in several hr of flight, shows statistically-significant variations of about a factor two (data from 1976 missions, reported in HAES 79, lie in a narrower range). Its mean value is very near that expected from laboratory and HAES rocket measurements. Altitude profiles of the SWIR photon yield from two DNA/AFGL rockets have a pronounced minimum near 110 km altitude, qualitatively similar to that predicted by models of collisional quenching of vibrationally-excited nitric oxide molecules by oxygen atoms. Preliminary results of the aircraft's photometric (including airglow-sensitive video) and radiometric measurements on the ionospheric plasma depleton produced by release of H2 and H20 from an Atlas Centaur rocket engine are presented.

Document Details

Document Type

Technical Report

Publication Date

Nov 30, 1979

Accession Number

ADA089724

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