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Nov 9, 2024

AI training method can drastically shorten time for calculations in quantum mechanics

Posted by in categories: chemistry, quantum physics, robotics/AI

The close relationship between AI and highly complicated scientific computing can be seen in the fact that both the 2024 Nobel Prizes in Physics and Chemistry were awarded to scientists for devising AI for their respective fields of study. KAIST researchers have now succeeded in dramatically shortening the calculation time of highly sophisticated quantum mechanical computer simulations by predicting atomic-level chemical bonding information distributed in 3D space using a novel approach to teach AI.

Nov 9, 2024

Persistent flat band splitting and strong selective band renormalization in a kagome magnet thin film

Posted by in category: futurism

Spectroscopic study on a kagome magnet thin film uncovers the local-moment nature of the magnetism in the presence of topological flat bands, as well as a strong spin-and orbital-selective electronic correlation effect.

Nov 9, 2024

Professor calculates optimal glass shape for preserving chill in beer glasses

Posted by in category: futurism

Claudio Pellegrini, a professor of thermal and fluid sciences at the Federal University of São João del-Rei in Brazil, has calculated the optimal shape for a beer glass to keep the beer cold for as long as possible. He has written a paper describing his analysis of beer glass shapes and posted it on the arXiv preprint server.

Nov 9, 2024

Astrophysicists measure ‘dance’ of electrons in the glow from exploding neutron stars

Posted by in categories: cosmology, particle physics

The temperature of elementary particles has been observed in the radioactive glow following the collision of two neutron stars and the birth of a black hole. This has, for the first time, made it possible to measure the microscopic, physical properties in these cosmic events.

Nov 9, 2024

See Without Being Seen: UCLA’s Unidirectional Imaging Breakthrough

Posted by in category: innovation

UCLAs new unidirectional imaging technology enables image formation in a single direction, preventing image capture in the reverse direction.

This novel technology, which operates effectively under partially coherent light, offers significant advancements in optical communication and visual information processing by providing selective, high-quality imaging.

Unidirectional Imaging

Nov 9, 2024

Scientists Have Exposed Water’s Mysterious Quantum Secrets

Posted by in categories: particle physics, quantum physics

For the first time, EPFL researchers have directly observed molecules engaging in hydrogen bonds within liquid water, capturing electronic and nuclear quantum effects that had previously been accessible only through theoretical simulations.

Water is synonymous with life, but the dynamic, multifaceted interaction that brings H2O molecules together – the hydrogen bond – remains mysterious. These hydrogen bonds form as hydrogen and oxygen atoms from neighboring water molecules connect, exchanging electronic charge in the process.

This charge-sharing is a key feature of the three-dimensional ‘H-bond’ network that gives liquid water its unique properties, but quantum phenomena at the heart of such networks have thus far been understood only through theoretical simulations.

Nov 9, 2024

Betelgeuse’s Secret Partner Betelbuddy Could Change Supernova Predictions

Posted by in category: cosmology

Scientists are rethinking the timing of Betelgeuse’s supernova, as new research suggests the star may have a hidden companion, known as Betelbuddy. This companion could be responsible for Betelgeuse’s unusual brightening and dimming patterns.

The discovery opens up new possibilities, including the idea that Betelbuddy might be a young star or even something more exotic, like a neutron star. Researchers are working to confirm Betelbuddy’s existence, which could dramatically change what we know about Betelgeuse and its eventual explosion.

Betelgeuse and Betelbuddy.

Nov 9, 2024

An ‘ultramassive’ Black Hole Has Been Discovered That’s 33 Billion Times The Mass Of The Sun

Posted by in category: cosmology

An ultramassive black hole is a black hole that has a mass of more than 10 billion times the mass of the sun. Black holes are regions of space where gravity is so strong that nothing, not even light, can escape. They are usually formed when massive stars collapse at the end of their life cycle.

Ultramassive black holes are rare and elusive, and their origins are unclear. Some scientists believe they were formed from the extreme merger of massive galaxies billions of years ago when the universe was still young.

Nov 9, 2024

Study shows bats have acoustic cognitive maps

Posted by in categories: habitats, mapping, neuroscience

This finding, published in Science, was demonstrated by researchers from the Max Planck Institute of Animal Behavior, the Cluster of Excellence Center for the Advanced Study of Collective Behavior at the University of Konstanz, Germany, Tel Aviv University, and the Hebrew University of Jerusalem, Israel.

Would you be able to instantly recognize your location and find your way home from any random point within a three-kilometer radius, in complete darkness, with only a flashlight to guide you?

Continue reading “Study shows bats have acoustic cognitive maps” »

Nov 9, 2024

A novel state of thorium opens the possibility for a nuclear clock

Posted by in categories: particle physics, space

Why are there atomic clocks but no nuclear clocks? After all, an atom’s nucleus is typically surrounded by many electrons, so in principle it should be less susceptible to outside noise (in the form of light). A nucleus, for high-atomic number atoms, contains more particles than does the element’s electrons. It holds nearly the entire mass of the atom while taking up only about 1/100,000th of the atom’s space. While the first atomic clock was invented in 1949, no nuclear clock has yet been feasible.

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