The current effort addresses two issues important to the research conducted by the Thermal Radiation Group at Virginia Tech. The first research topic involves the development of a method which can properly model the diffraction of radiation as it enters an instrument aperture. The second topic involves the study of a potential next-generation space-borne radiometric instrument concept. Presented are multiple modeling efforts to describe the diffraction of monochromatic radiant energy passing through an aperture for use in the Monte-Carlo ray-trace environment. Described in detail is a deterministic model based upon Heisenberg's uncertainty principle and the particle theory of light. This method is applicable to either Fraunhofer or Fresnel ...
The Clouds and Earth radiant energy system (CERES) instrument was first flown aboard the TRMM spacec...
In the last years two new kinds of microwave radiometers are being studied for Earth observation: ap...
The true nature of most physical phenomena, including the propagation of light, becomes evident when...
In practical radiometry, it can be helpful to consider the diffraction effects on radiation in the s...
Low Earth Observing instruments that are used to monitor the incoming solar and outgoing long wave r...
For the past three decades, the Earth Radiation Budget Experiment (ERBE) and Clouds and the Earth’s ...
Observing Earth s radiant energy budget from space is critical to improving our understanding of Ear...
Abstract. An overview of work related to the point response function (PRF) of the Clouds and Earth R...
For the past three decades, the ERBE and CERES instruments have established a long-term data record ...
The Clouds and Earth’s Radiation Energy System (CERES) program produces data of solar-reflected and ...
For the past three decades, the ERBE and CERES instruments have established a long-term data record ...
The goal of the Clouds and the Earth’s Radiant Energy System (CERES) program is to produce a long-te...
NASA's Earth Observing System (EOS) is part of an international program for studying the Earth from ...
The Earth’s radiation budget (ERB), measured at the top of the atmosphere (TOP), quantifies the radi...
development of a new technology for cavity-based radiometers. The radiometer consists of a 256-eleme...
The Clouds and Earth radiant energy system (CERES) instrument was first flown aboard the TRMM spacec...
In the last years two new kinds of microwave radiometers are being studied for Earth observation: ap...
The true nature of most physical phenomena, including the propagation of light, becomes evident when...
In practical radiometry, it can be helpful to consider the diffraction effects on radiation in the s...
Low Earth Observing instruments that are used to monitor the incoming solar and outgoing long wave r...
For the past three decades, the Earth Radiation Budget Experiment (ERBE) and Clouds and the Earth’s ...
Observing Earth s radiant energy budget from space is critical to improving our understanding of Ear...
Abstract. An overview of work related to the point response function (PRF) of the Clouds and Earth R...
For the past three decades, the ERBE and CERES instruments have established a long-term data record ...
The Clouds and Earth’s Radiation Energy System (CERES) program produces data of solar-reflected and ...
For the past three decades, the ERBE and CERES instruments have established a long-term data record ...
The goal of the Clouds and the Earth’s Radiant Energy System (CERES) program is to produce a long-te...
NASA's Earth Observing System (EOS) is part of an international program for studying the Earth from ...
The Earth’s radiation budget (ERB), measured at the top of the atmosphere (TOP), quantifies the radi...
development of a new technology for cavity-based radiometers. The radiometer consists of a 256-eleme...
The Clouds and Earth radiant energy system (CERES) instrument was first flown aboard the TRMM spacec...
In the last years two new kinds of microwave radiometers are being studied for Earth observation: ap...
The true nature of most physical phenomena, including the propagation of light, becomes evident when...