In less than three years, astronauts will return to the Moon for the first time since the Apollo Era. As part of the Artemis Program, the purpose is not only to send crewed missions back to the lunar surface to explore and collect samples. This time around, there’s also the goal of establishing vital infrastructure (like the Lunar Gateway and a Base Camp) that will allow for “sustained lunar exploration.”
A key requirement for this ambitious plan is the provision of power, which can be difficult in regions like the South Pole-Aitken Basin – a cratered region that is permanently-shadowed. To address this, a researcher from the NASA Langley Research Center named Charles Taylor has proposed a novel concept known as “Light Bender.” Using telescope optics, this system would to capture and distribute sunlight on the Moon.
Continue reading “Exploring the Moon’s Shadowed Regions Using Beamed Energy”
It sounds like science fiction, but building an enormous tower several kilometers high on the Lunar surface may be the best way to harness solar energy for long-term Lunar exploration. Such towers would raise solar panels above obstructing geological features on the Lunar surface, and expand the surface area available for power generation.
Continue reading “How do you get Power into Your Lunar Base? With a Tower of Concrete Several Kilometers High”
Regions of the Moon known as irregular mare patches – formed by magma cooling from a volcanic eruption – have almost no big craters, indicating that they must be relatively young. By studying the distribution of craters within them, we can estimate when these regions were formed: no more than 100 million years ago.
Continue reading “The Most Recent Volcanic Activity on the Moon? Just 100 Million Years ago”
The University of Colorado Boulder and Lunar Resources Inc. have just won NASA funding to study the possibility of building a radio telescope on the far side of the Moon. The project, called FarView, would harvest building materials from the Lunar surface itself, and use robotic rovers to construct a massive, intricate network of wires and antennas across 400 square kilometers. When complete, FarView would allow radio astronomers to observe the sky in low-frequency radio wavelengths with unprecedented clarity.
Continue reading “NASA is Considering a Radio Telescope on the Far Side of the Moon”
China’s proposed next-generation rocket reached the final stage of feasibility studies this month. The planned launch vehicle, known as the Long March-9, will be capable of sending 100 tons to the Moon, and could see its first launch as early as 2030.
Announced in 2018, the Long March-9 will play a key role in China’s long-term space ambitions. If all goes as planned, its first payload is likely to be a Martian sample return mission, and it would support China’s Lunar ambitions as well. Another proposed use for the super-heavy lift vehicle is to build an experimental space-based solar power station, although plans for that project are still very tentative.
Continue reading “China’s Super-Heavy Lift Rocket Will Carry 100 Tons to the Moon”
One of the oldest, deepest, and largest impact craters on the Moon provides a window into the history and makeup of our celestial companion, and needs to be studied in more detail, says a team of lunar scientists. The South Pole-Aitken Basin on the Moon formed from a gigantic impact about 4.3 billion years ago. Scientists say a more detailed analysis of this area will help refine the timeline of events in the Moon’s development, as well as help explain the dramatic differences between the lunar nearside and farside.
Continue reading “The Largest Crater on the Moon Reveals Secrets About its Early History”
There’s no doubt that the Moon has water on its surface. Orbiters have spotted deposits of ice persisting in the perpetual shadows of polar craters. And recent research shows that water exists in sunlit parts of the Moon, too.
Over the years, scientists have presented evidence that the Moon’s water came from comets, from asteroids, from inside the Moon, and even from the Sun.
But now new research is pointing the finger directly at Earth as the source of some of the Moon’s water.
Continue reading “The Earth’s Magnetosphere Might be Creating Water on the Moon”
In October of 2024, NASA will send astronauts to the Moon for the first time since the Apollo Era. After establishing orbit with their Orion spacecraft, a team of two astronauts (“the first woman and the next man”) will land in the Moon’s southern polar region. Over the course of a week, these astronauts will explore and investigate one of the region’s many permanently-shadowed craters.
As the first crewed lunar mission in over fifty years, this mission and those that follow will have a robust series of science objectives. These objectives were laid out in the Artemis III Science Definition Team Report, which was released to the public earlier this month. This report is a summary of the science plan prepared at the behest of NASA’s Science Mission Directorate (SMD) for the Artemis III mission.
Continue reading “Here are NASA’s Science Priorities for the Artemis Missions”
In what’s likely to be one of the last space policy initiatives of his administration, President Donald Trump has issued a directive that lays out a roadmap for nuclear power applications beyond Earth.
Space Policy Directive 6, released on December 16th, calls on NASA and other federal agencies to advance the development of in-space nuclear propulsion systems as well as a nuclear fission power system on the Moon.
“Space nuclear power and propulsion is a fundamentally enabling technology for American deep space missions to Mars and beyond,” Scott Pace, the executive secretary of the National Space Council, said in a White House news release. “The United States intends to remain the leader among spacefaring nations, applying nuclear power technology safely, securely and sustainably in space.”
Continue reading “White House Encourages NASA to Work on Space-Based Nuclear Power and Propulsion Systems”
On Tuesday, December 1st, at 10:11 EST (07:00 PST) the Chang’e-5 sample return spacecraft landed safely on the Moon. This mission is the latest in China’s lunar exploration program, which is paving the way for the creation of a lunar outpost and a crewed mission by the 2030s. The day after it landed, the Lunar Reconnaissance Orbiter (LRO) passed over the site and acquired an image of the lander.
Continue reading “Here’s Chang’e-5, Seen From Lunar Orbit”