NIST ADVANCED RADIOMETER CALIBRATED AND DELIVERED TO NASA.NIST staff recently completed a radiometric calibration of an advanced spaceflight instrument for NASA. The instrument, Scripps-NISTAR (NIST Advanced Radiometer radiometer (rā'dēŏm`ətər), instrument for detection or measurement of electromagnetic radiation; the term is applied in particular to devices used to measure infrared radiation. ), was developed to fly as part of the NASA Triana mission, which will view Earth from an L1 orbit (the Lagrange libration li·bra·tion n. A very slow oscillation, real or apparent, of a satellite as viewed from the larger celestial body around which it revolves. [Latin l , or neutral gravity point between the Earth and the Sun)--about 1.5 mullion mullion (mŭl`yən), in architecture, a slender, upright intermediate member that subdivides an opening, as a division between panes of a window or between adjacent windows. kiolometers from Earth. from there, an imaging camera and NISTAR NISTAR NIST Advanced Radiometer will have a continuous, full, sunlit view of the Earth. NISTAR includes three active cavity electrical substitution radiometers for absolute irradiance ir·ra·di·ant adj. Sending forth radiant light. [Latin irradi measurements, and one silicon photodiode. To properly simulate a sunlit Earth in the calibration laboratory, NIST researchers used NIST's SIRCUS SIRCUS Standard Information Retrieval Capability for Users SIRCUS SIDPERS Installation Retrieval Command/Unit Support (Spectral Irradiance and Radiance Responsivity Calibrations with Uniform Sources) facility. A tunable laser was fiber-optically coupled to an integrating sphere, which then served as a unform diffuse source of tunable monochromatic light, and the geometry was designed to provide the required 0.5[degrees] field of illumination. The NISTAR instrument's optical responsivity and other characteristics were measured using a wide variety of laser wavelengths in the range 488 nm to 850 nm (blue, green, red, near-infrared), during these tests, the NISTAR instrument was in a space-simulating thermal vacuum chamber, viewing the SIRCUS light through windows. This was the first time that the SIRCUS facility was used for an instrument in such a chamber. The results show that various adverse radiometric effects from using winddows and translating the fiber-optically coupled sphere are minimal and the resulting calibrarion uncertainties are below 1 %. The NISTAR instrument was delivered to the NASA Goddard Space Flight Center The Goddard Space Flight Center (GSFC) is a major NASA space research laboratory established on May 1, 1959 as NASA's first space flight center. GSFC employs approximately 10,000 civil servants and contractors, and is located approximately 6.5 miles northeast of Washington, D.C. and is ready for integration with the remaining spacecraft components for the Triana. To obtain additional information about the Triana mission, or to view the spacecraft's integration and testing pahse, visit http://trianaweb.gsfc.nasa.gov/ |
|
||||||||||||||||||||
Printer friendly
Cite/link
Email
Feedback
Reader Opinion