SAN FRANCISCO – Colorado startup ExoTerra Resources announced a NASA Small Business Innovative Research contract Oct. 5 to develop a solar electric upper stage to boost small satellites traveling on Virgin Orbit’s LauncherOne beyond low Earth orbit.
With ExoTerra’s Solar Electric Propulsion Upper Stage, LauncherOne customers could reach destinations including geostationary orbit, trans-lunar injection orbit, Earth-Moon Lagrange points and low lunar orbit, according to the ExoTerra news release.
“This win allows ExoTerra to begin development of an upper stage that will deliver up to 150 kilograms of payload to the moon,” according to the news release. The upper stage also could transport 180-kilogram payloads to geostationary orbit, the release added.
Virgin Orbit announced plans in 2019 to send small satellites to Mars in 2022 for Polish satellite manufacturer SatRevolution.
“That announcement definitely has attracted the interest of many others in the growing aerospace community,” a Virgin Orbit spokesman said by email.
Virgin Orbit sees “robust demand from customers” eager to travel on LauncherOne to destinations including highly elliptical orbit, geostationary orbit “and even to the moon, Mars, Venus and the asteroid belt,” the Virgin Orbit spokesman said. “Thanks to the ingenuity of the small satellite community, many groups have found ways to do really meaningful missions at each of those destinations using the amount of mass that we can confidently deliver using a stock LauncherOne complemented by a third stage.”
The new upper stage will be propelled by Halo XL, an ExoTerra Hall-effect thruster. The thruster draws on technology ExoTerra licensed from a NASA Jet Propulsion Laboratory program called Ascendant Sub-kW Transcelestial Electric Propulsion System or ASTRAEUS.
“This contract win is an important milestone for ExoTerra and aligns with our goal of developing high efficiency propulsion systems to support lunar and interplanetary missions,” Michael VanWoerkom, ExoTerra president and CEO, said