A tiny satellite is poised to set the stage for something far grander: a full-blown lunar space station. NASA’s CAPSTONE satellite is scheduled to launch on Monday and then travel to a unique lunar orbit in a pathfinder mission for the Artemis program, which is seeking to return humans to the Moon later this decade.
Update: June 27, 12:42 p.m. ET: The teams are now targeting June 28 for launch, with the window opening at 5:55 a.m. ET. Live coverage will begin at 5:00 a.m. ET.
Update: June 26, 1:01 p.m. ET: Rocket Lab and its partners are standing down from the launch attempt on Monday June 27 to perform final systems checks. “Teams are evaluating weather and other factors to determine the date of the next launch attempt,” according to a NASA press release. “The next launch opportunity within the current period is on June 28. CAPSTONE’s trajectory design means that the spacecraft will arrive at its lunar orbit on Nov. 13 regardless of launch date within the current period, which offers launch opportunities every day through July 27.”
Original post follows.
CAPSTONE is hitching a ride on board Rocket Lab’s Electron rocket, which will take off from the private company’s Launch Complex 1 in Mahia, New Zealand. Rocket Lab made headlines in May by using a helicopter to catch a falling booster rocket. The CAPSTONE launch is scheduled for 6 a.m. ET on June 27 with live coverage starting an hour earlier. You can catch the action at the agency’s website or app, or you can watch it at the livefeed below.
Approximately one week into the CAPSTONE mission, the probe’s journey will be made available through NASA’s Eyes on the Solar System interactive real-time 3D data visualization.
The Cislunar Autonomous Positioning System Technology Operations and Navigation Experiment (CAPSTONE) mission will send a microwave-sized satellite to a near rectilinear halo orbit (NRHO) around the Moon. The satellite will be the first to cruise its way around this unique lunar orbit, testing it out for the planned Lunar Gateway, a small space station that is meant to allow for a sustained human presence on the Moon.
NRHO is special in that it’s where the pull of gravity from the Moon and Earth interact; this orbit will theoretically keep spacecraft in a “gravitational sweet spot” in a near-stable orbit around the Moon, according to NASA. NRHO is therefore ideal in that it will require less fuel than conventional orbits and it will allow the proposed lunar space station to maintain a constant line of communication with Earth. But before NASA builds out its Gateway in this highly elliptical orbit, the space agency will use CAPSTONE—owned and operated by Colorado-based Advanced Space—to test its orbital models.
Six days after launching from Earth, the Electron rocket’s upper stage will release the CAPSTONE satellite on its journey to the Moon. The 55-pound (25-kilogram) cubesat will then perform the rest of its four-month trip solo. Once at the Moon, CAPSTONE will test the orbital dynamics of its orbit for about six months. The satellite will also be used to test spacecraft-to-spacecraft navigation technology and one-way ranging capabilities that could eventually reduce the need for future spacecraft to communicate with mission controllers on Earth and wait to have signals relayed from other spacecraft.
NASA is methodically putting together the pieces for the agency’s planned return to the Moon. The fourth and most recent wet dress rehearsal of the space agency’s Space Launch System (SLS) went well, paving the way for a possible launch in late August.