Data Suggests Early Universe was Superfluid

Ted writes "Experiments at the worlds largest nuclear collider, RHIC, at Brookhaven National Laboratory reveal striking new features of the state of the early Universe. With RHICs enormous collision energy, the researchers can create matter that is composed of the fundamental building blocks of nature, quarks and gluons, in a state with temperatures of more than 1000 billion degrees. The Universe is believed to have been in this state in the first microsecond after the Big Bang. Later the quarks and gluons were trapped in the nuclear particles that the visible universe is composed of today. Until recently, researchers have thought that the quarks and gluons formed a gas. The latest results from RHIC, however, indicate that under the extreme conditions just around the phase transition from quarks and gluons to ordinary matter, the quarks and gluons behaved as a liquid - in fact an almost perfect liquid."

Supersolids

However, it may well be possible for solids to exhibit superfluid flow. How? Imagine the flow of a liquid, except that all the atoms in the liquid have a crystal structure, and that entire structure is flowing in lockstep while maintaining a rigid crystalline structure. When Bose-Einstein condensation comes into play, you can have macroscopic coherence of atoms across the entire bulk of material.

Kim and Chan at Penn State claim to have created a supersolid state of matter in helium (and now, hydrogen). It's arguably the biggest experimental result in condensed matter physics right now; if confirmed, it will probably mean the Nobel Prize. However, theoretical studies have so far failed to unambiguously predict the existence of such as state of matter; there are arguments for and against, and the dust hasn't settled. If other experimental groups can replicate these results, we'll know for sure, regardless of whether theory has caught up with nature.