Predicting Magnetic Explosions: From Plasma Current Sheet Disruption to Fast Magnetic Reconnection
Supercomputer simulations and theoretical analysis shed new light on when and how fast reconnection occurs.
Supercomputer simulations and theoretical analysis shed new light on when and how fast reconnection occurs.
A nickelate thin film senses electric field changes analogous to the electroreception sensing organ in sharks, which detects the bioelectric fields of prey.
A mysterious mechanism that prevents instabilities may be similar to the process that maintains the Earth's magnetic field.
Study reveals surprising, bad chemical reactivity in battery components previously considered compatible.
New spectroscopic technique measures heat in itty-bitty volumes that could reveal insights for electronics and energy technology.
Optimizing lithium-sulfur battery electrolytes for long life.
New algorithm lets biologists harness massively parallel supercomputers to make sense of a “data deluge.”
Magnesium ions move very fast to enable a new class of battery materials.
Researchers bring extreme conditions to a supercomputer and discover new insights about our solar system and beyond.
Supercomputer simulations predict how E. coli adapts to environmental stresses.
Toolkit lets scientists detect extreme weather in climate simulations far faster than before.
Americium(III) is selectively and efficiently separated from europium(III) by an extractant in an ionic liquid.