NASA's microwave sized cube faces communication issues enroute to Moon
After leaving orbit, NASA's CAPSTONE mission -- a microwave oven-sized CubeSat -- has faced communications issues on its way to the Moon, the US space agency has said
After leaving orbit, NASA's CAPSTONE mission -- a microwave oven-sized CubeSat -- has faced communications issues on its way to the Moon, the US space agency has said.
The Cislunar Autonomous Positioning System Technology Operations and Navigation Experiment (CAPSTONE) lifted off to the Moon on June 28 aboard a Rocket Lab Electron rocket.
On Monday, the spacecraft left low-Earth orbit and started its solo journey to the Moon. It is slated to reach the Moon in November.
However, "the spacecraft experienced communications issues while in contact with the Deep Space Network" NASA said in a statement on Tuesday.
"The spacecraft team is currently working to understand the cause and re-establish contact," it added.
The agency noted that the mission officials have good trajectory data for the spacecraft.
"If needed, the mission has enough fuel to delay the initial post separation trajectory correction manoeuvre for several days," NASA said.
The CAPSTONE spacecraft weighing just 55 pounds will serve as the first spacecraft to test a unique, elliptical lunar orbit.
It will fly in cislunar space -- the orbital space near and around the Moon. The mission will demonstrate an innovative spacecraft-to-spacecraft navigation solution at the Moon from a near rectilinear halo orbit slated for Artemis' Gateway.
Once released from Rocket Lab's Photon satellite bus, CAPSTONE will use its propulsion system to travel for approximately three months before entering into orbit around the Moon.
After arrival at the Moon, CAPSTONE will begin its 6-month-long primary mission. The mission will validate a near rectilinear halo orbit's characteristics by demonstrating how to enter into and operate in the orbit.
Its mission objectives include demonstrate spacecraft-to-spacecraft navigation services that allow future spacecraft to determine their location relative to the Moon without relying exclusively on tracking from Earth; lay a foundation for commercial support of future lunar operations; and gain experience with small dedicated launches of CubeSats beyond low-Earth orbit, to the Moon, and beyond.