As NASA prepares to send astronauts back to the Moon under Artemis, the agency has identified 13 candidate landing regions near the lunar South Pole. Each region contains multiple potential landing sites for Artemis III which will be the first of the Artemis missions to bring the crew to the lunar surface, including the first woman to set foot on the Moon.
"Selecting these regions means we are one giant leap
closer to returning humans to the Moon for the first time since Apollo,"
said Mark Kirasich, deputy associate administrator for the Artemis Campaign
Development Division at NASA Headquarters in Washington. "When we do, it
will be unlike any mission that's come before as astronauts venture into dark
areas previously unexplored by humans and lay the groundwork for future
long-term stays."
NASA identified the following candidate regions for an
Artemis III lunar landing:
Faustini Rim A, Peak Near Shackleton, Connecting Ridge,
Connecting Ridge Extension, de Gerlache Rim 1, de Gerlache Rim 2, de
Gerlache-Kocher Massif, Haworth, Malapert Massif, Leibnitz Beta Plateau, Nobile
Rim 1, Nobile Rim 2, Amundsen Rim
Each of these regions is located within six degrees of
latitude of the lunar South Pole and, collectively, contains diverse geologic
features. Together, the regions provide landing options for all potential
Artemis III launch opportunities. Specific landing sites are tightly coupled to
the timing of the launch window, so multiple regions ensure flexibility to
launch throughout the year.
To select the regions, an agency-wide team of scientists and
engineers assessed the area near the lunar South Pole using data from NASA's
Lunar Reconnaissance Orbiter and decades of publications and lunar science
findings.
In addition to considering launch window availability, the
team evaluated regions based on their ability to accommodate a safe landing,
using criteria including terrain slope, ease of communications with Earth, and
lighting conditions. To determine accessibility, the team also considered the
combined capabilities of the Space Launch System rocket, the Orion spacecraft,
and the SpaceX-provided Starship human landing system.
All regions considered are scientifically significant
because of their proximity to the lunar South Pole, which is an area that
contains permanently shadowed regions rich in resources and in terrain
unexplored by humans.
"Several of the proposed sites within the regions are
located among some of the oldest parts of the Moon, and together with the
permanently shadowed regions, provide the opportunity to learn about the
history of the Moon through previously unstudied lunar materials," said
Sarah Noble, Artemis lunar science lead for NASA's Planetary Science Division.
The analysis team weighed other landing criteria with
specific Artemis III science objectives, including the goal to land close
enough to a permanently shadowed region to allow the crew to conduct a moonwalk
while limiting disturbance when landing.
This will allow the crew to collect samples and conduct
scientific analysis in an uncompromised area, yielding important information
about the depth, distribution, and composition of water ice that was confirmed
at the Moon's the South Pole.
The team identified regions that can fulfil the moonwalk
objective by ensuring proximity to permanently shadowed regions and also
factored in other lighting conditions.
All 13 regions contain sites that provide continuous access
to sunlight throughout a 6.5-day period - the planned duration of the Artemis
III surface mission. Access to sunlight is critical for a long-term stay on the
Moon because it provides a power source and minimises temperature variations.
"Developing a blueprint for exploring the solar system
means learning how to use resources that are available to us while also
preserving their scientific integrity", said Jacob Bleacher, chief
exploration scientist for NASA. "Lunar water ice is valuable from a
scientific perspective and also as a resource, because from it we can extract
oxygen and hydrogen for life support systems and fuel."
NASA will discuss the 13 regions with the broader science
and engineering communities through conferences and workshops to solicit input
about the merits of each region.
This feedback will inform site selections in the future, and
NASA may identify additional regions for consideration. The agency will also
continue to work with SpaceX to confirm Starship's landing capabilities and
assess the options accordingly.
NASA will select sites within regions for Artemis III after
it identifies the mission's target launch dates, which dictate transfer
trajectories and surface environment conditions.
Through Artemis, NASA will land the first woman and the
first person of colour on the Moon, paving the way for a long-term, sustainable
lunar presence and serving as a stepping stone for future astronaut missions to
Mars.
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