Lunar Trailblazer's Thermal Mapper Has Arrived at Lockheed Martin. Seen here before being shipped from the to the , the Lunar Thermal Mapper (LTM) is one of two instruments that will be carried by NASA's Lunar Trailblazer. Launching in 2023, the small spacecraft – measuring only about 11 feet ( meters) wide with its solar panels fully deployed – will also carry the High-resolution Volatiles and Minerals Moon Mapper (HVM³). The two instruments will work together to help detect and map water on the Moon's surface to determine its abundance, location, form, and how and why it varies b
Lunar Trailblazer's Thermal Mapper Has Arrived at Lockheed Martin. Seen here before being shipped from the to the , the Lunar Thermal Mapper (LTM) is one of two instruments that will be carried by NASA's Lunar Trailblazer. Launching in 2023, the small spacecraft – measuring only about 11 feet ( meters) wide with its solar panels fully deployed – will also carry the High-resolution Volatiles and Minerals Moon Mapper (HVM³). The two instruments will work together to help detect and map water on the Moon's surface to determine its abundance, location, form, and how and why it varies by location and time. In February 2023, LTM completed qualification for flight and calibration at the University of Oxford in England. The instrument will provide maps of lunar surface temperature from about minus 261 degrees Fahrenheit (minus 163 degrees Celsius) to 261 F (127 C) using four broad-band infrared channels covering wavelengths from to 100 micrometers. The instrument also has 11 narrower infrared channels that are sensitive enough to detect and map small variations in the composition of silicate minerals that make up the rocks and soils of the Moon's surface. The instrument is shown here wrapped with a multilayer insulation blanket to assist with thermal control. Not covered by insulation is LTM's single eye – a scan mirror that can pivot down to look at the Moon's surface or outward into space for calibration purposes. The scan mirror collects a line of pixels at a time to form an image via the motion of the spacecraft. During vacuum testing the instrument viewed external targets that varied in temperature between minus 261 F (minus 163 C) and 243 F (117 C) so that it could be calibrated. The alignment, spectral, and radiometric (temperature) accuracy of LTM was checked both before and after the instrument was tested via vibration and cycling through thermal environments identical to what it will experience during launch and operation in lunar orbit. Wi
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