The next generation of infrared remote sensing satellite instrumentation, including climate benchmark missions will require better absolute measurement accuracy than now available, and will most certainly rely on the emerging capability to fly SI traceable standards that provide irrefutable absolute measurement accuracy. As an example, instrumentation designed to measure spectrally resolved infrared radiances with an absolute brightness temperature error of better than 0.1 K will require high-emissivity (\u3e0.999) calibration blackbodies with emissivity uncertainty of better than 0.06%, and absolute temperature uncertainties of better than 0.045K (k=3). Key elements of an On-Orbit Absolute Radiance Standard (OARS) meeting these stringent r...
The HyperSpectral Imager for Climate Science (HySICS) is the core instrument of the Climate Absolute...
Infrared radiometers and spectrometers generally use blackbodies for calibration, and with the high ...
The Earth's climate is undoubtedly changing; however, the time scale, consequences and causal attrib...
The next generation of infrared remote sensing satellite instrumentation, including climate benchmar...
The accuracy of radiance measurements with space-based infrared spectrometers is contingent on the q...
Spectrally resolved thermal radiances measured from orbit with extremely high absolute accuracy (\u3...
Mesurer le rayonnement infrarouge de manière résolue spectralement à partir de satellites avec une t...
The need for absolute radiometric calibration of space-based sensors will continue to increase as ne...
: The FIRST (Far-InfraRed Spectroscopy of the Troposphere) instrument is a 10 to 100 micron spectrom...
The ZY1-02E satellite carrying a thermal infrared sensor was successfully launched from the Taiyuan ...
The FIRST (Far-InfraRed Spectroscopy of the Troposphere) instrument is a 10 to 100 micron spectromet...
The need for independent, redundant absolute radiometric calibration methods is discussed with refer...
Highly accurate measurements of Earth's thermal infrared and reflected solar radiation are required ...
The HyperSpectral Imager for Climate Science (HySICS) is the core instrument of the Climate Absolute...
Infrared radiometers and spectrometers generally use blackbodies for calibration, and with the high ...
The Earth's climate is undoubtedly changing; however, the time scale, consequences and causal attrib...
The next generation of infrared remote sensing satellite instrumentation, including climate benchmar...
The accuracy of radiance measurements with space-based infrared spectrometers is contingent on the q...
Spectrally resolved thermal radiances measured from orbit with extremely high absolute accuracy (\u3...
Mesurer le rayonnement infrarouge de manière résolue spectralement à partir de satellites avec une t...
The need for absolute radiometric calibration of space-based sensors will continue to increase as ne...
: The FIRST (Far-InfraRed Spectroscopy of the Troposphere) instrument is a 10 to 100 micron spectrom...
The ZY1-02E satellite carrying a thermal infrared sensor was successfully launched from the Taiyuan ...
The FIRST (Far-InfraRed Spectroscopy of the Troposphere) instrument is a 10 to 100 micron spectromet...
The need for independent, redundant absolute radiometric calibration methods is discussed with refer...
Highly accurate measurements of Earth's thermal infrared and reflected solar radiation are required ...
The HyperSpectral Imager for Climate Science (HySICS) is the core instrument of the Climate Absolute...
Infrared radiometers and spectrometers generally use blackbodies for calibration, and with the high ...
The Earth's climate is undoubtedly changing; however, the time scale, consequences and causal attrib...