With faster supercomputers and improved algorithms, scientists are studying a broad range of materials to find useful properties.
Supercomputing power and algorithms are helping astrophysicists untangle giant stars’ brightness, temperature and chemical variations.
To revive antibiotics and devise new drug designs, Georgia Tech researchers team up with Oak Ridge’s Titan supercomputer.
Supercomputer simulations and theoretical analysis shed new light on when and how fast reconnection occurs.
Solar flares, coronal mass ejections and gamma-ray bursts are among the universe’s many explosive events involving ionized gas, called plasma, that are associated with magnetic reconnection. Reconnection breaks magnetic field lines and turns magnetic potential energy into kinetic energy of charged particles in the plasma. This energy conversion also causes what physicists call “sawtooth crashes” in tokamaks that are potentially damaging to electricity-producing fusion devices. Scientists may have found the trigger for these explosive events and, using supercomputer simulations, can predict when and under what conditions the events will occur.View full highlight »