SpaceX doesn’t plan to rest on its rocket-catching laurels.
The company made spaceflight history on Sunday (Oct. 13) during the fifth test flight of its Starship megarocket: About seven minutes after liftoff, the vehicle’s first-stage booster, known as Super Heavy, came back to its launch mount, where it was caught by the “chopstick” arms of the launch tower.
And SpaceX aims to do the same with Starship’s 165-foot-tall (50 meters) upper-stage spacecraft — known as Starship, or simply Ship — in the coming months as well, according to company founder and CEO Elon Musk . “Hopefully early next year, we will catch the ship too,” Musk said Tuesday (Oct. 15) in a post on X (formerly Twitter).
SpaceX is developing the 400-foot-tall (122 meters), fully reusable Starship to get people and cargo to the moon and Mars , and perform a variety of other spaceflight feats as well. Things are going well; the vehicle’s most recent two test flights — on June 6 and this past Sunday — were complete successes, according to the company.
So it shouldn’t be a big surprise that SpaceX plans to push the envelope, bringing Ship back safely on one or more upcoming test flights. (On recent missions, the upper stage has splashed down in the Indian Ocean.)
Related: Starship and Super Heavy explained
A view of SpaceX’s Flight 5 Starship upper stage as it reenters Earth’s atmosphere, with red glowing plasma around it. (Image credit: SpaceX) Launch-tower catches of Ship likely won’t apply to all of the vehicle’s missions, however. For example, the upper stage will carry people to the surface of the moon and Mars, if all goes according to plan — jaunts that will presumably require propulsive, vertical touchdowns made with the aid of landing legs.
But SpaceX also envisions launching many Starship missions to Earth orbit — for example, to continue building out its huge Starlink broadband megaconstellation, and to help refuel other Starships that are bound for distant realms. Launch-mount landings make sense for these craft, allowing them to fly to and from Earth orbit quickly and efficiently.
