KAIST’s NeonSat-1 will be the primary payload on an Electron rideshare mission that will also deploy NASA’s Advanced Composite Solar Sail System, or ACS3 satellite. The mission will lift-off from Rocket Lab Launch Complex 1 in New Zealand.
Engineers at NASA’s Langley Research Center test deployment of the Advanced Composite Solar Sail System’s solar sail. The unfurled solar sail is approximately 30 feet (about 9 meters) on a side. Since solar radiation pressure is small, the solar sail must be large to efficiently generate thrust. NASA
NeonSat-1 is a high-resolution optical satellite that will be deployed as a technology demonstration for a planned future EO constellation. KAIST is Korea’s leading science and technology institution, having developed and operated Korea’s very first satellite KAIST when it was successfully launched more than 30 years ago.
In addition to being launched by Electron, KAIST’s NeonSat-1 will use Rocket Lab’s MLB satellite separation system in the Company’s latest demonstration of its vertically integrated space systems strategy.
“2024 is shaping up to be our busiest launch year yet with a fully booked manifest of Electron missions,. By combining this mission with the launch of NASA’s ACS3 spacecraft, we’ve been able to provide KAIST with a launch opportunity on short notice to help them reach orbit faster. It’s a privilege to be working with the KAIST team and we are thrilled to be providing them with timely and affordable launch services on Electron.” — Rocket Lab founder and CEO, Peter Beck
“We highly anticipate collaborating with Rocket Lab for a successful launch of our first satellite of the NEONSAT microsatellite constellation program.” — Jae-Hung Han, Director General of the Satellite Technology Research Center (SaTReC) at KAIST
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