The precise measurement of states in atomic and molecular systems can help to validate fundamental physics theories and their ...

They have outlined a scheme by which two experimentally observed and prebiotically plausible reactions of amino acids could ...

Cornell researchers are demonstrating how artificial intelligence—particularly deep learning and generative modeling—can ...

Cornell researchers are demonstrating how artificial intelligence - particularly deep learning and generative modeling - can accelerate the design of ...

Each octopus arm has its own dense network of neurons, up to 350 million across all eight arms, that can work without the ...

A team of chemists has made significant strides in the field of mechanically interlocked molecules (MIMs). Their work showcases the development of a compact catenane with tuneable mechanical chirality ...

In a new series of papers, researchers from Cornell University have demonstrated how alternative approaches to AI-powered ...

Metallic hydrogen was predicted on theoretical grounds as long ago as in 1935. Since then, scientists around the world have ...

Diagrammatic representation of the isostructural desymmetrisation strategy to transform an achiral catenane into a chiral ...

Scientists have successfully relocated protons outside of an antimatter laboratory with the help of an autonomous, open Penning trap. This breakthrough marks a significant step toward transporting ...

The 75th Regeneron International Science and Engineering Fair (ISEF), the world's largest and most prestigious science competition, concluded on May 16 with the Grand Awards ceremony in host city ...

Protons are the basic building blocks of matter. Together with neutrons, they form atomic nuclei. These minute, positively ...