Accession Number : AD0489629
Title : SYNCHRONIZED HIGH-SPEED SCANNING INFRARED SPECTROMETER.
Descriptive Note : Research rept.,
Corporate Author : AVCO EVERETT RESEARCH LAB INC EVERETT MA
Personal Author(s) : Camm, J. C. ; Taylor, R. L. ; Lynch, R.
Report Date : AUG 1966
Pagination or Media Count : 24
Abstract : A spectrometer which scans a wavelength band of 0.6 microns in 30 microseconds and is useful from 2 to 6 microns is described. The instrument can be synchronized with a pulsed source with a minimum triggering dealy of 15 microseconds. Using this instrument data have been obtained of the absolute spectral radiation intensity of air, nitrogen, neon, and argon heated by reflected shocks in shock tubes to equilibrium temperatures in the range of 6000 to 10,000 K. In this temperature regime an important source of continuum radiation in these gases is neutral Bremsstrahlung caused by the inelastic scattering of electrons from neutral atoms and molecules. The instrument is basically an Ebert spectrometer equipped with an indium antimonide detector at the exit slit, an aluminum scanning mirror placed 2 inches before the exit slit, and a wavelength calibration signal generator. The scanning mirror, which is supported on pivots inside a helical coil, deflects the spectrum through an angle of approximately 90 degrees onto the exit slit. When a capacitor is discharged through the coil, the resulting magnetic field spins the aluminum mirror causing the spectrum to move across the exit slit. The wavelength calibration signal generator produces a series of electrical pulses as the scanning mirror turns, permitting wavelength calibration when the pulses are displayed below the spectrometer signal on a dual beam oscilloscope. (Author)
Descriptors : *INFRARED SCANNING), (*INFRARED SPECTROPHOTOMETERS, SYNCHRONIZATION(ELECTRONICS), CALIBRATION, PERFORMANCE(ENGINEERING), SHOCK WAVES, AIR, NITROGEN, NEON, ARGON, SENSITIVITY, SHOCK TUBES.
Subject Categories : Test Facilities, Equipment and Methods
Distribution Statement : APPROVED FOR PUBLIC RELEASE