Add to ORKGAs a practical matter, most commercial infrared thermometers are calibrated with “homemade ” blackbodies of unknown and uncertified emissivities. This design for a water-immersible certified-emissivity blackbody is intended to provide a simple and inexpensive, but accurate reference for emissivity, referenced to recognized standards and proven mathematical constructions
Highly precise (~±0.05% k=2), traceable, infrared radiance calibrations are typically achieved throu...
This paper aims to explain importance of emissivity in non-contact measurement. The significance and...
Nowadays very often IR-thermography is used to analyze the temperature on electronic device surfaces...
The stability of blackbody sources and their ability to be modeled accurately make them well suited ...
ABSTRACT This paper starts with a back to basics review of the definition of blackbody emissivity, h...
Infrared radiometers and spectrometers generally use blackbodies for calibration, and with the high ...
Blackbody models are used as referential temperature measuring gauges for radiation thermo...
The accuracy of radiance measurements with space-based infrared spectrometers is contingent on the q...
There are many infrared radiometer systems available for the measurement of in situ sea surface skin...
We have designed, built and tested a fluid bath blackbody for use as an infrared optical source at t...
A comparison between two different types of thermal radiation sources maintaining near blackbody con...
Non-contact measurements of high temperature, accomplished with the use of infrared cameras and pyro...
Quasi-operational shipborne radiometers provide a fiducial reference measurement (FRM) for satellite...
Nowadays very often IR-thermography is used to analyze the temperature on electronic device surfaces...
SBIR is developing an enhanced blackbody for improved radiometric testing. The main feature of the b...
Highly precise (~±0.05% k=2), traceable, infrared radiance calibrations are typically achieved throu...
This paper aims to explain importance of emissivity in non-contact measurement. The significance and...
Nowadays very often IR-thermography is used to analyze the temperature on electronic device surfaces...
The stability of blackbody sources and their ability to be modeled accurately make them well suited ...
ABSTRACT This paper starts with a back to basics review of the definition of blackbody emissivity, h...
Infrared radiometers and spectrometers generally use blackbodies for calibration, and with the high ...
Blackbody models are used as referential temperature measuring gauges for radiation thermo...
The accuracy of radiance measurements with space-based infrared spectrometers is contingent on the q...
There are many infrared radiometer systems available for the measurement of in situ sea surface skin...
We have designed, built and tested a fluid bath blackbody for use as an infrared optical source at t...
A comparison between two different types of thermal radiation sources maintaining near blackbody con...
Non-contact measurements of high temperature, accomplished with the use of infrared cameras and pyro...
Quasi-operational shipborne radiometers provide a fiducial reference measurement (FRM) for satellite...
Nowadays very often IR-thermography is used to analyze the temperature on electronic device surfaces...
SBIR is developing an enhanced blackbody for improved radiometric testing. The main feature of the b...
Highly precise (~±0.05% k=2), traceable, infrared radiance calibrations are typically achieved throu...
This paper aims to explain importance of emissivity in non-contact measurement. The significance and...
Nowadays very often IR-thermography is used to analyze the temperature on electronic device surfaces...