Add to ORKGThe most common sources of error in optical pyrometry are examined. They can be classified as either noise and uncertainty errors, stray radiation errors, or speed-of-response errors. Through judicious choice of detectors and optical wavelengths the effect of noise errors can be minimized, but one should strive to determine as many of the system properties as possible. Careful consideration of the optical-collection system can minimize stray radiation errors. Careful consideration must also be given to the slowest elements in a pyrometer when measuring rapid phenomena
Abstract This paper examines the reliability of a widely used method for temperature determination b...
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...
The spectral stray light is a major, non-negligible error source affecting spectral intensity measur...
Design and operation of accurate millisecond and microsecond resolution optical pyrometers developed...
Pyrometer is a favorite method to do remote temperature measurement in research and development. One...
The authors argue that the use of pyrometers can be recommended for a limited number of tasks. The m...
The design, construction and calibration of a computer-linked multicolor pyrometer is described. The...
There is no theoretical upper temperature limit for pyrometer application in temperature measurement...
Pyrometers are commonly used for high temperature measurement, but their accuracy is often limited b...
The program goals are to design, construct, and program a prototype imaging pyrometer capable of mea...
A three-color pyrometer has been developed based on plenoptic imaging technology. Three bandpass fil...
The spectral-scanning method may be used to determine the temperature profile of a jet- or rocket-en...
A method of determining the emissivity of a hot target from a laser-based reflectance measurement wh...
For high temperature materials such as thermal protection systems for re-entry vehicles or combustio...
Abstract This paper examines the reliability of a widely used method for temperature determination b...
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...
The spectral stray light is a major, non-negligible error source affecting spectral intensity measur...
Design and operation of accurate millisecond and microsecond resolution optical pyrometers developed...
Pyrometer is a favorite method to do remote temperature measurement in research and development. One...
The authors argue that the use of pyrometers can be recommended for a limited number of tasks. The m...
The design, construction and calibration of a computer-linked multicolor pyrometer is described. The...
There is no theoretical upper temperature limit for pyrometer application in temperature measurement...
Pyrometers are commonly used for high temperature measurement, but their accuracy is often limited b...
The program goals are to design, construct, and program a prototype imaging pyrometer capable of mea...
A three-color pyrometer has been developed based on plenoptic imaging technology. Three bandpass fil...
The spectral-scanning method may be used to determine the temperature profile of a jet- or rocket-en...
A method of determining the emissivity of a hot target from a laser-based reflectance measurement wh...
For high temperature materials such as thermal protection systems for re-entry vehicles or combustio...
Abstract This paper examines the reliability of a widely used method for temperature determination b...
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...