NASA Awards Contract to Launch CubeSat to Moon from Virginia

Rocket Labs second launch site, Launch Complex 2 at the Mid-Atlantic Regional Spaceport at NASAs Wallops Flight Facility
Part of the Mid-Atlantic Regional Spaceport at NASAs Wallops Flight Facility in Virginia, Launch Complex 2 is Rocket Labs second launch site for the Electron rocket. Rocket Lab will launch NASAs Cislunar Autonomous Positioning System Technology Operations and Navigation Experiment (CAPSTONE) CubeSat mission to the Moon from the Virginia launch site in early 2021.
Credits: Rocket Lab

NASA has selected Rocket Lab of Huntington Beach, California, to provide launch services for the Cislunar Autonomous Positioning System Technology Operations and Navigation Experiment (CAPSTONE) CubeSat.

Rocket Lab, a commercial launch provider licensed by the Federal Aviation Administration, will launch the 55-pound CubeSat aboard an Electron rocket from NASAs Wallops Flight Facility in Virginia. After launch, the companys Photon platform will deliver CAPSTONE to a trans-lunar injection. The engine firing will allow the CubeSat to break free of Earths gravity and head to the Moon. Then, CAPSTONE will use its own propulsion system to enter a cislunar orbit, which is the orbital area near and around the Moon. The mission is targeted for launch in early 2021 and will be the second lunar mission to launch from Virginia.

Updated illustration of NASAs CAPSTONE CubeSat
Updated illustration of NASAs CAPSTONE CubeSat. The spacecraft design has changed since the mission contract award in September 2019.
Credits: NASA

NASAs Launch Services Program (LSP) is pleased to provide a low-cost launch service for CAPSTONE and to work with Rocket Lab on this inaugural NASA launch from their new launch site at the Mid-Atlantic Regional Spaceport in Virginia, said Ana Rivera, LSP program integration manager for CAPSTONE at NASAs Kennedy Space Center in Florida. LSP will manage the launch service.

This mission is all about quickly and more affordably demonstrating new capabilities, and we are partnering with small businesses to do it, said Christopher Baker, Small Spacecraft Technology program executive at the agencys headquarters in Washington. This is true from the perspective of CAPSTONEs development timeline, operational objectives, navigation demonstration and its quickly procured commercial launch aboard a small rocket.

Following a three-month trip to the Moon, CAPSTONE will enter a near rectilinear halo orbit, which is a highly elliptical orbit over the Moons poles, to verify its characteristics for future missions and conduct a navigation demonstration with NASAs Lunar Reconnaissance Orbiter. CAPSTONE will serve as a pathfinder for the lunar spaceship Gateway, a key component of NASAs Artemis program.

CAPSTONE is a rapid, risk-tolerant demonstration that sets out to learn about the unique, seven-day cislunar orbit we are also targeting for Gateway, said Marshall Smith, director of human lunar exploration programs at NASA Headquarters. We are not relying only on this precursor data, but we can reduce navigation uncertainties ahead of our future missions using the same lunar orbit.

The firm-fixed-price launch contract is valued at $9.95 million. In September, NASA awarded a $13.7 million contract to Advanced Space of Boulder, Colorado, to develop and operate the CubeSat.

After a final design review this month, Advanced Space and Tyvak Nano-Satellite Systems Inc. of Irvine, California, will start building and testing the spacecraft.

CAPSTONE is managed by NASAs Small Spacecraft Technology programwithin the agencys Space Technology Mission Directorate. Advanced Exploration Systems within NASAs Human Exploration and Operations Mission Directorate supports the launch and mission operations.

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