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Most space systems now employ encryption as a security measure.
Consistent, long-term satellite observations provide policymakers with tools to measure progress and identify regions at risk.
Chang’e 7 includes a smaller hopper that will measure water in lunar soil with the Lunar Soil Water Molecule Analyzer.
The new Copernicus satellites will measure anthropogenic atmospheric carbon dioxide, monitor sea ice, and support services for sustainable agriculture and biodiversity.
Switzerland provided a spectrometer facing Earth to measure radiation, and Italy contributed a laser retroreflector array for measuring distances to the Moon.
Sentinel-6 is an altimetry mission designed to measure global sea surface height.
Less than 7 minutes after liftoff, the Atlas 5 rocket was more than 1,000 miles away from the launch pad and reduced power to the main engine, a measure known as MECO, or main engine cut off.
ESCAPADE consists of twin spacecraft that will measure the interactions between the solar wind and the Martian atmosphere.
The innovative characteristics of the COSMO-SkyMed constellation enable it to measure different polarizations of signals.
Scientists measure helium-3 to distinguish cosmic dust from earthly debris.
HydroGNSS is a Scout mission developed to measure key climate variables such as soil moisture, wetlands, permafrost, and biomass.
The HydroGNSS mission will use GNSS reflectometry techniques to measure surface characteristics using signals from navigation satellites.
A patented force probe developed in Kiel is used to measure the impact of ion beams on various materials.
Researchers at Embry-Riddle Aeronautical University built a device to measure charged particles around the spacecraft.
The UC Berkeley instruments on the ESCAPADE spacecraft include electrostatic analyzers to measure escaping ions and electrons from Mars.
The SLSTR radiometers produced in Campi Bisenzio measure the temperature of oceans and land from an altitude of 800 km with a precision of up to one-tenth of a degree.
PEP will measure for twelve consecutive days to capture enough particles from 3I/ATLAS.
Quantum sensing utilizes quantum phenomena like atomic interference and entanglement to measure physical quantities with high precision.
HydroGNSS is a two-satellite mission that will use Global Navigation Satellite System reflectometry to measure soil moisture, wetlands, freeze-thaw state over permafrost, forest biomass, and other climate variables linked to the global water cycle.
The new satellites will measure anthropogenic carbon dioxide emissions, observe sea ice and snow cover, support optimized services for sustainable agriculture and biodiversity, monitor sea surface temperature and salinity, and enhance European terrestrial monitoring and emergency management services.