The advantages of cheaper, faster and more precise crystal formation are clear to see. Crystals are used everywhere, from ...

Scientists at TU Wien have uncovered that quantum correlations can stabilize time crystals—structures that oscillate in time without an external driver. Contrary to previous assumptions, quantum ...

At the interface between chemistry and physics, the process of crystallization is omnipresent in nature and industry. It is the basis for the formation of snowflakes but also of certain active ...

Crystals—from sugar and table salt to snowflakes and diamonds—don't always grow in a straightforward way. New York University researchers have captured this journey from amorphous blob to orderly ...

Researchers in Vienna have discovered something remarkable: crystals that don’t form in space, like diamonds or salt, but in time itself. Instead of atoms arranging neatly into repeating patterns, ...

New studies of the “platypus of materials” help explain how their atoms arrange themselves into orderly, but nonrepeating, patterns.

Physicists have uncovered the fascinating world of “rotating crystals” — solids made of spinning particles that behave in ...