#Beyond Space | Applications
#Exoplanet Exploration
#Search For Life
#Discoveraging Planetary System
#Understanding Planetary System
#Astrophysics
#ExoPlanets
#High Angular Resolution Sensing
#High Contrast Imaging
#Improving Space Telescope Stability
#Wavefront Sensing And Control
#AdvancedvOptics
#Statev Of The Art Structures
#State Of The Art Material
#State Of The Art Mechanism
#Specialized Spacecraft Sub System
#Coordinated Use Of Multiple Spacecraft
#New Guidance System
#New Navigation System
#New Control Algorithms
#Vefification Methods
#Validitation Methods
#Mid Infraded Transit Spectroscopy Of Exoplanets
#Directly Imaging Yong Massive Exoplanets
#High Contrast Corona Graph Instrument
#Adaptive Optics
#Low Order Wavefront Sensor
#Spectral Characterization
#AtmospherevMeasuring
#Search For Spectral Signatures Of Gases
#Search For Spectral Signatures Of Ocygen
#Search For Spectral Signatures Of Water
#Solar wind has irradiated minerals in lunar soil for billions of years and stored abundant hydrogen
#When heated to high temperatures, hydrogen reacts with iron oxides in minerals to form elemental iron and large amounts of water
#1 g of molten lunar regolith can generate 51-76 mg of water
#1 tonne of lunar regolith can produce more than 50 kg of water
#Lunar ilmenite FeTiO3 found to contain the highest amount of solar wind-implanted hydrogen
#Hydrogen retained in lunar minerals is a substantial resource for producing water on moon
#Atomic spacing in lunar soil increase significantly due to the presence of hydrogen
#There are sub-nano tunnels in ilmenite in lunar soil, which can absorb and store many hydrogen atoms from solar wind
#NASA Technology Readiness Level 7 | Confirmation of technology feasability as system in space