Browse Physics

Lava from a 2001 eruption may have carved rather than melted a channel through rock, upsetting conventional wisdom.

Two new high-performance metals–one super-strong, the other super-malleable–have several properties that could lead to cheaper and better manufactured products.

Neutrons can take the temperature of a shock wave racing through a solid and could provide a new tool for weapons research and planetary science.

An unusual material shrinks as it gets hotter because of complex vibrations in its crystal structure.

Carbon nanotubes are not simply rigid rods, but can bend into a variety of shapes with a simple water treatment.

Calculations from the fundamental laws of physics suggest that the Earth’s mantle remains mysterious.

Liquid copper atoms form small, transient clusters with the symmetry of a pentagon, a forbidden formation for conventional crystals.

A new model accurately predicts material hardness based on atomic structure.

Atoms that “rattle” in cage-like structures in a crystal could lead to materials that generate electricity or cool their surroundings.

Glass may fracture in a way similar to metals, but at a thousand times smaller scale.

Carbon particles combining diamond and buckyball structures could form tomorrow’s optoelectronics.

Computer simulations suggest the interlaced structure of a composite material forced to balance competing demands.

Polarized light can determine the precise structure of a growing crystal, opening the way for fine-tuned pharmaceuticals and novel materials.

Some ferroelectric crystals can remember sounds.

Simulations and experiments indicate that spherical molecules can form an ordered phase that’s part solid, part liquid.

A new study gives the most detailed pictures yet of an industrially useful nanoscale sponge.

Atoms scraped from a surface pile up in a surprisingly well-ordered heap.

Osmium holds up under pressure better than diamond, suggesting a new place to look for superhard materials.

Microscopic polymer beads can link up into chains and networks that might be used in many technologies.

Cracks in stretched rubber mysteriously oscillate as they travel. Solving the mystery may help illuminate the puzzling laws of crack motion.