The NASA Overview: Moon Base Lander Awards, Artemis III Hardware, Swift Rescue Mission

Artemis III Engines Arrive as Moon Base Momentum Builds

The second of four RS-25 rocket engines destined for NASA’s Space Launch System core stage arrived at Kennedy Space Center this past week, marking continued progress on hardware for the Artemis III mission. These engines will power SLS during Artemis III’s scheduled launch, propelling the Orion spacecraft toward the Moon.

The NASA Overview: Moon Base Lander Awards, Artemis III Hardware, Swift Rescue Mission

Meanwhile, NASA celebrated its space exploration legacy as the Wright Flyer swatch that flew aboard Artemis II during its lunar orbit mission returned home to the Smithsonian’s National Air and Space Museum. The historic textile—a piece of the aircraft that first achieved powered flight—bridged aviation’s past and spaceflight’s future.

Four Commercial Landers to Deliver NASA Payloads Across the Lunar Surface

NASA announced four new commercial lunar lander missions this week as part of its Moon Base Phase One programme, significantly increasing the cadence of lunar exploration. Administrator Jared Isaacman unveiled the awards during a virtual event, highlighting the agency’s commitment to building a sustained human presence on the Moon.

Image shared by @NASAMoonBase | Source: @NASAMoonBase

The four lander missions will carry NASA science and technology payloads to expand scientific discovery and advance the capabilities needed for crewed lunar operations. Blue Origin remains a central partner, with its Mk. 1 cargo lander planning its first mission—called Endurance—to land on the lunar surface, and its Mk. 2 human-rated lander in development for eventual crewed delivery.

NASA announces new lander contracts for Moon Base Phase One by Eleanor Day July 1, 2026 written by Eleanor Day July 1, 2026 2 In June 2026, NASA announced four new lunar landers as part of its Moon… | Source: NASASpaceFlight

The expanded lander cadence represents a major acceleration of Moon Base development, with each mission building the infrastructure and operational experience needed for long-duration lunar habitation.

Mars Rovers Rest as Lunar Ambitions Grow

This week saw no major active science updates from NASA’s Mars rovers, a quiet moment on the Red Planet. However, the agency is looking ahead to future lunar exploration: NASA is considering PROMISE, a Polar Rover for Observation, Mapping, and In-Situ Exploration, for deployment on the Moon. The rover design builds on proven technology from Curiosity and Perseverance, suggesting NASA’s lunar strategy increasingly draws on Mars rover expertise.

Swift Observatory to Receive Orbital Boost from Commercial Robotic Servicing

A historic mission to rescue a NASA space telescope is poised for launch this week. The LINK spacecraft, built by Katalyst Space, is scheduled to launch no earlier than Thursday, July 2, at 5:09 a.m. EDT aboard a Northrop Grumman Pegasus XL rocket from Kwajalein Atoll in the Marshall Islands. If successful, LINK will rendezvous with, grapple, and gradually raise the orbit of NASA’s Neil Gehrels Swift Observatory, preventing it from re-entering Earth’s atmosphere later this year.

This will mark the first time a commercial robotic servicing spacecraft has captured an uncrewed NASA spacecraft not originally designed for in-space servicing—a significant milestone for the emerging on-orbit servicing industry.

On the astrophysics front, NASA’s James Webb Space Telescope revealed a stunning portrait of star formation in the FS Tau system. Webb’s infrared vision penetrated dense dust clouds, unveiling numerous protostars—baby stars aged 1 to 3 million years old—shaping their surroundings through energetic outflows and accretion. The young stellar objects are already reshaping their environment despite their low mass, evidence that even nascent stars leave a mark on the cosmos around them.

Expedition 74 Completes Canadarm2 Overhaul Following Successful Spacewalk

Astronauts Chris Williams and Jessica Meir completed a 7-hour, 20-minute spacewalk on Tuesday, June 30, conducting critical maintenance on the International Space Station’s Canadian-built Canadarm2 robotic arm. Working 260 miles above Earth, the pair replaced a malfunctioning wrist joint using a spare already aboard the station. The spacewalk, which began at 8:20 a.m. EDT and concluded at 3:40 p.m. EDT, kept the station’s most versatile robotic appendage operational for future cargo operations and maintenance tasks.

Image shared by @Space_Station | Source: @Space_Station

Following the EVA, Expedition 74 crew members turned their attention to science and station upkeep. The crew advanced cartilage repair research and cardiac studies whilst cosmonauts focused on laboratory maintenance. Mid-week, the ISS also performed a reboost manoeuvre on Wednesday to raise its orbital altitude.

Image shared by @Space_Station | Source: @Space_Station

Blue Origin Rebuilds; NASA Recruits for Future Deep Space Missions

Blue Origin is making “almost beyond impressive” progress rebuilding Launch Complex 36 after the May 28 explosion that destroyed its primary New Glenn launch pad, according to NASA Administrator Jared Isaacman. The company is collaborating with the US Space Force and aiming for a year-end return to flight, though independent observers expect a 12- to 18-month timeline to be more realistic.

A crane performs a vertical breakover of New Glenn—the reverse of the operation already used to offload the booster from Jacklyn—and lifts the vehicle onto a refurbished launch table. Credit: Blue… | Source: Ars Technica

NASA’s Mk. 1 lander Endurance mission—scheduled to carry two NASA science payloads to the lunar surface—remains Plan A for launch on New Glenn, though the agency is evaluating contingency launch options given the recovery timeline.

On the workforce front, NASA is recruiting volunteers for the Moon and Mars Exploration Analog (MMEA), a yearlong simulated deep space mission beginning no earlier than August 2027. Participants will live in confined, isolated habitats at Johnson Space Center in Houston, simulating transit to and operations on the Moon and Mars. The programme combines elements of NASA’s HERA and CHAPEA analogue missions to evaluate crew health, performance, and technology under realistic long-duration exploration scenarios.

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