5 upcoming trips to the moon and how CU 麻豆影院 scientists are involved
Selfie taken by "Athena," a lunar lander built by the company Intuitive Machines, which launched for the moon Feb. 26. (Credit: Intuitive Machines)
The next few years will be a busy time for the CU 麻豆影院鈥檚 鈥渓unatics鈥濃攚hat astrophysicist Jack Burns calls scientists who have a passion for exploring the moon.
Paul Hayne
Jack Burns
Researchers at the university, including Burns and planetary scientist Paul Hayne, are taking part in five upcoming lander missions through NASA鈥檚 (CLPS) initiative鈥攖he first slated to touch down later this week. CLPS is an ambitious effort to deliver science and technology to the lunar surface by landing spacecraft built by private companies on the moon.
The new missions will explore everything from volcanoes on the moon鈥檚 surface to signals washing through our galaxy from the dawn of the universe.
鈥淲hen we last landed on the moon during the Apollo era, the sorts of experiments that could be done were limited based on the technology they had at the time,鈥 said Hayne, a scientist at the (LASP) at CU 麻豆影院. 鈥淔or the first time, we have the opportunity to deploy many different kinds of instruments on the lunar surface to make these up-close measurements.鈥
The new CLPS deliveries follow up on a successful experiment called Radio wave Observations at the Lunar Surface of the photo Electron Sheath (ROLSES). This instrument landed on the moon last year aboard a lander named Odysseus built by the Texas-based company . Burns was a co-investigator on ROLSES, which recorded radio waves originating from Earth-based transmitters and from the Milky Way Galaxy.
For Burns, a professor emeritus in the Department of Astrophysical and Planetary Sciences (APS), the event was a long time in the making. The moon, he said, is a scientific laboratory like no other.
鈥淚 heard 鈥榥o鈥 for decades. 鈥榃e can鈥檛 go back to the moon. It鈥檚 a fantasy,鈥欌 Burns said. 鈥淏ut the science was so exciting and important that we stuck with it. And today, it鈥檚 happening.鈥
Here is a sampling of CU 麻豆影院鈥檚 upcoming trips to the moon:
3D mapping the moon
The lunar festivities kicked off in late February with the launch of a , the successor to Intuitive Machines鈥 Odysseus. Athena is scheduled to land near the moon鈥檚 South Pole March 6 where it will deploy a rover that鈥檚 less than 2 feet long.
Aboard the rolling robot will be a camera based on technology from an old Xbox Kinect gaming system.
That camera, , will generate the first up-close, 3D map of this part of the moon鈥檚 surface鈥攃apturing even small nooks and crannies in incredible detail. Hayne and Patrick O鈥橞rien, a postdoctoral researcher at LASP, are spearheading an effort to use those maps to recreate information about temperatures across the moon鈥檚 surface. The Moon3D mission is led by the Massachusetts Institute of Technology, and the Colorado-based company Lunar Outpost is building the lander.
鈥溾橫icro-cold traps,鈥 craters as small as a penny that never see the sun, could harbor abundant ice deposits that provide crucial insights into the history of water on the moon,鈥 O鈥橞rien said.
Athena launched Feb. 26 from NASA鈥檚 Kennedy Space Center in Florida on a SpaceX Falcon 9 rocket.
On Feb. 26, Intuitive Machine's "Athena" lander launched from a SpaceX Falcon 9 rocket in Florida. (Credit: NASA)
Artist's depiction of a Draper lunar lander on the surface of the moon. (Credit: NASA)
Protecting astronauts from electric charges
After ROLSES, Burns鈥 next moon experiment is positively electric. The , in partnership with the Japanese company iSpace, will head to the moon鈥檚 Schr枚dinger Basin next year鈥攁 nearly 200-mile-wide impact crater on the lunar far side, or the part of the moon that never faces Earth.
From there, the Lunar Surface Electromagnetics Experiment-Lite (LuSEE-Lite) instrument will map out the electric charges that hover just above the moon鈥檚 surface鈥攕imilar to the forces that make your socks stick together in the dryer. Those charges could pose risks to future astronauts on the moon. LuSEE-Lite consists of a single antenna that will stick up more than 20 feet from the lander.
Burns serves as a co-investigator on the mission, which is led by the University of California, Berkeley.听
Tuning in to the ancient universe
A similar instrument known as LuSEE-Night will build on data from LuSEE-Lite, with a dark twist. It鈥檚 flying aboard Blue Ghost 2, the , which operates out of Cedar Park, Texas. (Firefly鈥檚 first lander successfully landed on the moon March 2).
Blue Ghost 2 will touch down on the moon鈥檚 far side and observe radio waves emanating from space far beyond the Milky Way Galaxy. Burns noted that these faint signals could give scientists clues to a hidden period in the history of the cosmos called the 鈥淒ark Ages鈥濃攁 time just before the first stars and galaxies formed in the early universe about 100 million years after the Big Bang.
Burns explained that the moon鈥檚 far side provides scientists with an unprecedented opportunity to view these signals, in part because the region is shielded from the radio noise of technology on Earth. LuSEE-Night is also led by UC Berkeley.
鈥淲e are carrying 40 kilograms, or 88 pounds, of batteries with us, which will allow LuSEE-Night to potentially survive on the lunar surface for two years and operate at night,鈥 Burns said. 鈥淭hat鈥檚 the quiet time on the moon because there鈥檚 no noise coming from the sun.鈥
Artist's depiction of an orbital vehicle deploying a Blue Ghost lander. (Credit: Firefly Aeropsace)
The moon's mysterious Gruithuisen Domes as seen from space. (NASA/GSFC/Arizona State University)
Getting to the bottom of the domes
Firefly鈥檚 next lander boasts not one but two instruments with involvement from CU 麻豆影院 scientists.
Blue Ghost 3 will head for a puzzling region of the moon known as the Gruithuisen Domes. These rounded mountains rise to nearly a mile above the moon鈥檚 surface and were formed by lava rich in silica.
Hayne explained that on Earth, silica tends to only appear in large quantities in lava formed by the churn of plate tectonics. What these silica-rich features are doing on the moon, which has no continental plates, remains a mystery.
The planetary scientist joined a team led by the University of Central Florida that is trying to answer that question. A rover known as the (Lunar-VISE) will detach from the Blue Ghost lander and roll around this region of the moon. Lena Heffern, a systems engineer at LASP, and Margaret Landis, a research scientist at LASP, are co-investigators on the Lunar-VISE mission. Hayne is leading work on an infrared camera that will sit on the lander and help to identify the nearby minerals.
"It's an exciting opportunity to combine measurement techniques from the Lunar-VISE instruments to understand the evolution and history of lunar volcanism at this unusual location," Landis said.
The Space and Mission Systems division of the Colorado-based company BAE Systems, formerly Ball Aerospace, is building Lunar-VISE鈥檚 science instruments.
Burns and his colleagues, meanwhile, are getting a second moon shot of sorts.
The astrophysicist previously participated in the ROLSES experiment led by the NASA Goddard Space Flight Center in Maryland. When the Odysseus spacecraft touched down on the moon, it tipped onto its side, which limited how much data the ROLSES team was able to collect.
Now, the same researchers are launching ROLSES 2, which boasts a few improvements on the original design. The new instrument will include four antennas and, like LuSEE-Night, will collect radio waves鈥攊n this case, not just from the Milky Way but also from our own planet, moon and sun.
Burns explained that radio waves coming from Earth can tell scientists a lot about the magnetic fields that surround the globe. He hopes that the team鈥檚 data will help scientists search for potentially habitable planets beyond Earth鈥檚 solar system, what scientists call 鈥渆xoplanets.鈥
鈥淲e know that on Earth, the magnetic field is essential for life because it shields us from dangerous radiation in space,鈥 he said. 鈥淚f we can learn more about these radio emissions, we may one day be able to measure the strength of magnetic fields around exoplanets.鈥
ROLSES 2 is also led by NASA Goddard in close partnership with CU 麻豆影院.
Scaling mountains
Hayne will take part in one more CLPS mission set to launch in 2027. Intuitive Machines鈥 fourth and final planned lander, which doesn鈥檛 yet have a name borrowed from Greek mythology, is heading for the region around Mons Mouton. It is one of the tallest mountains on the moon, rising to nearly 20,000 feet above the surface.
The lander will carry a camera called the (L-CIRiS), which is similar to the camera flying aboard Blue Ghost 3. (L-CIRiS was also built by BAE Systems). The device will measure temperatures across the lunar surface, including around the shadows tucked behind boulders and inside craters. Those images could help future space explorers know where to look for water frozen into ice on the moon.
鈥淭hese are measurements we鈥檝e never been able to make before,鈥 Hayne said.
After decades of waiting, Burns is eager for what the next few years will hold.
鈥淭his is something I tell my students鈥攖o never accept 鈥榥o,鈥欌 he said.
The L-CIRiS instrument will map out temperatures on the moon's surface near the lunar South Pole. (Credit: LASP)
听听Beyond the story
Our space impact by the numbers:
- 19 CU 麻豆影院-affiliated astronauts
- No. 1 university recipient of NASA research awards
- Only academic research institute in the world to have sent instruments to every planet in the solar system
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