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Strange crystal structure reveals incredibly complex maze

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Can you find your way out of the red center of the maze? Scroll down for the answer

University of Bristol

An algorithm designed to find the most efficient path from atom to atom in a strange kind of crystal turns out to create incredibly complex mazes. In addition to building mazes, the technique could also be useful for speeding up certain industrial chemical reactions.

The crystals in question are called quasicrystals because their atoms are arranged in a repeating fashion like normal crystals, but they exhibit more complex and unpredictable symmetries. Although such crystals have been synthesized in laboratories and were produced during the first nuclear weapon detonation in 1945, only one natural source has been found so far: a meteorite found in Russia in 1985.

“Quasicrystals have all the symmetries that normal crystals don’t have. [normal] The crystals are very interesting.” Felix Flicker Professor at the University of Bristol in the UK. “It’s a very beautiful area of mathematics, but you can appreciate that beauty directly without knowing the details.”

Fricker and his colleagues developed an algorithm to quickly generate paths that contact every atom in a quasicrystal exactly once. Diagrams of these paths form beautiful maze-like structures.

Creating such a pathway is known in computer science as an NP-complete problem, a problem that becomes exponentially more complicated as the number of atoms increases. These problems can quickly become virtually impossible to compute at large scales, but the researchers have found that in some quasicrystals the problem is unexpectedly simple.

“This was quite surprising, since this problem in general is known to be essentially unsolvable and, since these quasicrystals do not have translational symmetry, it did not seem to offer any obvious simplifications,” Fricker says.

The solution to the maze is marked in red

University of Bristol

Developing such a pathway, Fricker says, could be put to practical use in a laboratory technique called scanning tunneling microscopy, in which an extremely sharp tip is maneuvered over a material to sense individual atoms one by one, building up an atomic-level picture. Creating complex images, such as one of the quasicrystal itself, can take up to a month, but Fricker says that time could be cut in half if a more efficient pathway could be found to capture each atom.

Fricker also believes the technique could be used to create crystalline catalysts for industrial chemical processes that are more efficient than current methods, making certain compounds faster or less costly to produce. But Fricker thinks other uses may also become apparent over time. “I hope the most interesting uses will be ones that we haven’t even thought of.”

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Source: www.newscientist.com

The US moon probe landing today carries five incredibly unusual objects

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Intuitive Machines is preparing to create history as the first private company to land on the moon following last week’s launch from Kennedy Space Center in Florida.

The Nova-C lander named Odysseus (affectionately nicknamed “Odie”) is scheduled to touch down at 5:30pm ET (10:30pm GMT) and everything is proceeding as planned. This will be the first instance of an American-led mission reaching the moon since the end of the Apollo program over 50 years ago.

The mission is part of NASA’s Artemis Commercial Lunar Payload Service (CLPS) initiative, aiming to return humans to the moon by the end of this decade, led by a private company.

Since NASA’s Apollo 11 landed in 1969, several countries including the former Soviet Union, China, India, and Japan have successfully placed equipment on the moon.

Today’s “space race” is different not only because more countries are involved but also due to the private sector having a central role on the forefront. It is now possible for an individual or company with sufficient funds to place something on the moon.

The mission includes all of NASA’s key experiments, with a total of six experiments collecting data critical to NASA’s crewed Artemis missions later this decade. This leaves room for additional unique additions.

1. Puffer jacket

Columbia Sportswear has developed a lining for the Omni-Heat Infinity Jacket, designed to keep explorers warm in harsh environments, to be used on the Odie during the mission to protect the lander’s equipment from extreme temperatures.

Image credit: Intuitive Machines

2. Photos for the gram

Intuitive Machines CEO Steve Altemus challenged students back in 2019 to capture photos of the landing from a third-person perspective, leading to the creation of the EagleCam which is poised to capture snapshots of the lunar landing.

The EagleCam is the first third-person photo camera for a landing and also serves as the first moon landing project built by a college student, it also uses WiFi on the moon.

3. Miniature satellite

Renowned American artist Jeff Koons has created 125 stainless steel sculptures depicting the moon as seen from Earth, along with an array of scientific equipment to be placed on the moon.

4. (Almost) All Human Knowledge

The Arch Mission Foundation is sending a permanent archive of human information along with the lander, ensuring that human knowledge is safely stored for posterity.

According to Intuitive Machines, the repository includes archives like the Rosetta Project, Long Now Foundation content, Project Gutenberg content, and other cultural archive datasets, and an English version of Wikipedia.

5. A very stylish file cabinet

Lone Star Data Holdings has secured a location for the Independence data center within the IM-1 mission, allowing the safe storage and transmission of documents on the moon.

When can we see the moon landing?

Coverage of the Intuitive Machine’s moon landing can be followed live through NASA’s web services from 4pm ET (9pm GMT). Live videos and comments can be accessed through NASA TV, NASA+ streaming service, or the NASA app.

About our experts

Science writer and journalist Joel Renstrom and computer scientist and author Peter Bentley provided insights for this story.

Source: www.sciencefocus.com

Juno spacecraft captures incredibly detailed image of Jupiter’s moon Io

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This image of Io was taken by the Juno spacecraft.

NASA/SwRI/MSSS

Thanks to NASA's Juno spacecraft, which passed the moon on December 30, we had the closest look at Jupiter's volcanic moon Io in decades.

Juno, which has been orbiting Jupiter since 2016, has increasingly taken images of Io's vicinity in recent months as its orbit around Jupiter changes.

This latest image was taken just 1500 kilometers above the moon's surface. In it, you can see some of Io's hundreds of towering mountains, some of which can exceed 10 kilometers in height, and their long, sharp shadows.

Io is thought to be the most volcanically active body in the solar system, with hundreds of active volcanoes. These volcanoes tend to be smaller than the largest mountains, averaging only 1 to 2 kilometers in height, and are difficult to see in images.

But by comparing the data with images from Juno's previous 56 lunar passes, astronomers are starting to understand how these volcanoes have changed over time and why they are so active. You can know.

Juno has also been exploring Jupiter's other moons, including Europa and Ganymede, collecting data and taking the closest images. NASA's Galileo spacecraft In February, Juno will again fly very close, about 1,500 kilometers above Io's surface.

Juno will fly close to Io seven more times before leaving orbit for Jupiter at the end of 2025, but that won't be the end of learning about Jupiter's moons. NASA's Europa Clipper spacecraft, scheduled to launch in October this year, is designed to fly just 25 kilometers above the surface of Europa, considered one of the most promising sites for life on Earth. This will provide important information about the mysterious inland sea. Solar system. The spacecraft is scheduled to arrive at Europa in 2030.

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Source: www.newscientist.com