Studying and designing novel materials is a central application of quantum mechanics. Chemists, materials scientists, and ...

Visible without a telescope, γ Cassiopeiae has stood out for decades because it behaves unlike an ordinary massive star. Its ...

A team of scientists has used an IBM quantum computer to simulate the magnetic behavior of potassium copper fluoride, known ...

Team from U.S. Department of Energy-funded Quantum Science Center demonstrates quantum computers can perform material ...

High-energy particles called galactic cosmic rays (GCRs) bombard unprotected objects in space, often causing damage. Earth, ...

For a few hours each lunar day, the radiation environment near the moon quietly shifts. Measurements now suggest that parts ...

Gold was not born on our planet Earth; it was forged in a violent ‘cosmic forge’ far beyond our solar system. Research ...

IBM (IBM) said its quantum computer can simulate real magnetic materials with results that match neutron scattering experiments, marking a step toward using quantum systems for scientific research.

To do that, they need to understand quantum behavior, something that can’t always be done using classical computing methods.

A star you can see with the naked eye has kept astronomers guessing for decades with its unusually powerful X-rays. Now, ...

Astronomers studying a distant superluminous supernova uncovered a strange pattern hidden in its light: a rapidly ...

From the moment that astronomer Angelo Secchi identified γ Cassiopeia (gamma-Cas) as the first Be star in 1866, the object ...