Nikon’s mirrorless Z 9 goes to the Moon in 2027, when a crewed lunar exploration marks the return of NASA to the surface of Earth’s natural satellite. Nikon announced last March that the company entered into a Space Act agreement with the National Aeronautics and Space Administration (NASA) to support the agency’s Artemis campaign with Handheld Universal Lunar Camera (HULC) development.
The Nikon Z 9, Nikon’s mirrorless full-frame flagship, as implemented in the HULC system, will be the handheld camera for the upcoming Artemis III mission which will be used by the crew returning to the surface of the Moon. The Artemis campaign is an ambitious and important undertaking for humanity. Artemis will return us to the Moon in order to establish a foundation for long-term scientific lunar research and exploration, eventually leading as a passageway for travel to Mars.
Since humankind’s first forays into space, handheld cameras have been used to document the journey, sending back iconic imagery, and for research. This Space Act agreement is a collaboration between NASA and Nikon Inc. to ensure the current state-of-the-art full-frame camera can survive lunar environments while developing an efficient and optimal platform for image and video capture for the mission.
The Nikon Z 9 is already being used in space, as an unmodified Z 9 camera has been sent to the crew of the International Space Station in 2024. As NASA integrates the latest technology of Nikon’s mirrorless camera system, a selection of lenses has also been sent to assist astronauts. The shipment consisted of 13 Z 9s, a total of more than 15 NIKKOR Z lenses, including super-telephoto and micro lenses, and 15 FTZ II adapters.
While the camera is physically the same, Nikon engineers worked directly with NASA to create a custom dedicated firmware to better serve the astronauts and the environment in space. This includes expanding noise reduction to faster shutters speeds to account for the constant bombardment of cosmic radiation that the crew and gear are subject to about the space station. Additional changes have been made to the file naming sequence, as well as default settings and controls that are optimized for life aboard the orbiting laboratory and when enclosed in the protective covering for exterior missions. Changes have also been made to the in-camera FTP and transfer protocol to simplify the astronaut’s workflow, increase efficiency and reduce power consumption when sending images from space to Earth.
In fact, Nikon cameras have been used by NASA and space agencies extensively for decades. Since the Apollo 15 mission more than 50 years ago, Nikon cameras and lenses have been used by NASA for space exploration. Starting in 1999, Nikon cameras (Nikon F5) and NIKKOR lenses have been used aboard the ISS to aid in scientific research, maintenance and aiding astronauts capturing the iconic images of the Earth, the heavens and beyond. The gear is used both inside the space station, but also in the unrelenting vacuum of space in a special “blanket” developed by NASA. In 2008, NASA took delivery of the D2XS digital SLR, and in 2013, 38 Nikon D4 digital SLR cameras and 64 NIKKOR lenses were delivered to the space station crew.
A custom grip developed by NASA
The Artemis III mission is scheduled to launch NASA’s SLS (Space Launch System) rocket with the agency’s Orion spacecraft in September 2026. The crew’s historic expedition will be the first human landing on the lunar surface since 1972, and this mission will also mark the first time a woman will walk on the Moon. During this 30-day mission, the crew will enter lunar orbit, after which two astronauts will land on the lunar surface in the lunar module (SpaceX’s Starship Human Landing System). After spending approximately seven days on the lunar surface conducting research and multiple moonwalks, they will return to the Orion spacecraft to join the other two crew members and return to Earth.
Here is some more information about the project and the modified cameras, shared by Nikon:
The Moon surface and lunar environment is a harsh and unforgiving vacuum, which poses multiple technological and engineering challenges. The surface is subject to massive temperature swings, with constant bombardment of cosmic radiation that can damage electrical components. Nikon’s engineers are working closely with NASA to develop solutions for maximum reliability when operating under this kind of extreme environment, including the redesign of various circuits and control sequences within the camera to withstand the vast amounts of radiation. Support will also be given for vacuum thermal testing, running various tests and simulations to help ensure that the camera maintains operational status when about 383,000 kilometers (238,000 miles) away from Earth.
Additionally, the camera will need to be used by astronauts during extravehicular activities (EVA), which are instances when the crew will be in space or on moonwalks. In order for astronauts to comfortably and easily use the Z 9 when wearing the thick gloves of a spacesuit, a custom grip is being developed by NASA, which includes common controls such as a shutter release, playback, still/video capture switching and more. This grip will connect to the camera via the 10-pin terminal, which will be usable with specialized custom firmware created for the cameras. To protect the camera, lens and housing during EVA, a special “thermal blanket” will be created by NASA, which is similar to those currently used during exterior spacewalks by International Space Station astronauts. A selection of NIKKOR Z lenses will also be used for the mission, and those that will be actively used on the Moon will be modified to withstand the harsh lunar environment.
Nikon’s showcase at CES 2025
Like the cameras used by the Space Station crew, the firmware will also be specially modified for this mission. These modifications include accounting for the different circuitry, expanding noise reduction to lower shutter speeds to account for the effects of constant bombardment of cosmic radiation that the crew and gear encounter. Additional changes have been made to the file naming sequence, as well as default settings and controls that are optimized for exterior missions. Changes have also been made to the in-camera communication control to simplify the astronaut’s workflow and reduce power consumption when sending images from space to Earth. Additional modifications include shutter shield optimization, enhanced HDR functionality and modified default settings for menu items.
At CES 2025, Nikon will showcase its solutions that support this monumental project, including the thermal blankets designed to protect the camera and lenses from lunar dust and extreme temperature changes. Nikon will also have an immersive activation at CES 2025, Studio Extreme, in partnership with Disguise, using products from MRMC and RED, both Nikon companies.