Add to ORKGA multiwavelength technique was developed and applied to measure the temperatures of nongray surfaces. The instruments required are a spectral radiometer, a dedicated auxiliary radiation source, and a computer. In general, three radiation spectra are recorded: (1) spectrum S sub 0 of the auxiliary radiation source; (2) spectrum S sub 1 of the surface-emitted radiation; and (3) spectrum S sub 2, the sum of the radiation of S sub 1 plus the reflected radiation due to the incidence of the auxiliary radiation source on the surface. Subtracting spectrum S sub 1 from spectrum Sub 2 yields the reflection spectrum resulting from the incidence radiation. From these spectra, a quantity z(lambda) is derived and is related to the reflectivity r(lambda)...
There is no theoretical upper temperature limit for pyrometer application in temperature measurement...
The design, construction and calibration of a computer-linked multicolor pyrometer is described. The...
The surface temperatures of several pure ceramic materials (alumina, beryllia, magnesia, yittria and...
A NASA developed multiwavelength pyrometry technique for nongray surfaces was extended to also measu...
Researchers at the NASA Glenn Research Center have developed a unique multiwavelength pyrometer for ...
A multiwavelength pyrometer was developed for applications unique to aerospace environments. It was ...
Pyrometer is a favorite method to do remote temperature measurement in research and development. One...
Surface pyrometry is feasible even when the amount of surface radiation is exceeded by radiation fro...
A multiwavelength pyrometer possessing advantages over the one- and two-wavelength designs is descri...
Temperature measurement of a substance that is transparent using the traditional 1-color, 2-color an...
Variable wavelength pyrometer measurements on surface brightness temperature of glowing ablating mat...
A method of determining the emissivity of a hot target from a laser-based reflectance measurement wh...
Pyrometers are commonly used for high temperature measurement, but their accuracy is often limited b...
A laser pyrometer was developed for acquiring the true temperature of a levitated sample. The reflec...
A Multi-Wavelength Imaging Pyrometer (M-WIP) for real-time remote sensing of temperature profiles of...
There is no theoretical upper temperature limit for pyrometer application in temperature measurement...
The design, construction and calibration of a computer-linked multicolor pyrometer is described. The...
The surface temperatures of several pure ceramic materials (alumina, beryllia, magnesia, yittria and...
A NASA developed multiwavelength pyrometry technique for nongray surfaces was extended to also measu...
Researchers at the NASA Glenn Research Center have developed a unique multiwavelength pyrometer for ...
A multiwavelength pyrometer was developed for applications unique to aerospace environments. It was ...
Pyrometer is a favorite method to do remote temperature measurement in research and development. One...
Surface pyrometry is feasible even when the amount of surface radiation is exceeded by radiation fro...
A multiwavelength pyrometer possessing advantages over the one- and two-wavelength designs is descri...
Temperature measurement of a substance that is transparent using the traditional 1-color, 2-color an...
Variable wavelength pyrometer measurements on surface brightness temperature of glowing ablating mat...
A method of determining the emissivity of a hot target from a laser-based reflectance measurement wh...
Pyrometers are commonly used for high temperature measurement, but their accuracy is often limited b...
A laser pyrometer was developed for acquiring the true temperature of a levitated sample. The reflec...
A Multi-Wavelength Imaging Pyrometer (M-WIP) for real-time remote sensing of temperature profiles of...
There is no theoretical upper temperature limit for pyrometer application in temperature measurement...
The design, construction and calibration of a computer-linked multicolor pyrometer is described. The...
The surface temperatures of several pure ceramic materials (alumina, beryllia, magnesia, yittria and...