Fractional excitons in bilayer graphene systems provide new perspectives on quantum interactions, crucial for developing next-generation quantum materials.| AZoQuantum
Neutrinos are elementary particles known for displaying weak interactions. As a result, neutrinos passing each other in the same place hardly notice one another. Yet, neutrinos inside a supernova collectively behave differently because of their extremely high density.| AZoQuantum
Neutrinos are a type of particle that pass through just about everything in their path from even the most distant regions of the universe. The Earth is constantly bombarded by billions of neutrinos, which zip right through the entire globe, houses, animals, people - everything. Only very rarely do they react with matter, but the giant IceCube experiment at the South Pole can detect when there is a collision between neutrinos and atoms in the ice using a network of detectors.| AZoQuantum
Similar to an electron in structure, a neutrino is a subatomic particle with a very small mass and no electrical charge. The most abundant mass-containing particles in the universe are neutrinos.| AZoQuantum
