RHIC Finds Symmetry Transformations In Quark Soup

eldavojohn writes "Today scientists at the Relativistic Heavy Ion Collider (RHIC) in Brookhaven National Laboratory revealed new observations after creating a 'quark soup' that revealed hints of profound symmetry transformations when collisions create conditions in which temperatures reach four trillion degrees Celsius. A researcher explains the implications, 'RHIC's collisions of heavy nuclei at nearly light speed are designed to re-create, on a tiny scale, the conditions of the early universe. These new results thus suggest that RHIC may have a unique opportunity to test in the laboratory some crucial features of symmetry-altering bubbles speculated to have played important roles in the evolution of the infant universe.' These new findings hint at violations of mirror symmetry or parity by witnessing asymmetric charge separation in these collisions."

Re:Can this thing make "strangelets"?

[chrylis]

I'm not currently a research physicist, but I'm a (prior) collaborator on the experiment in question.

No "strangelet" has ever been observed, and their behavior depends on certain parameters that are unknown... because they've never been observed. It's reasonable to guess at this point that the strangelet-eats-the-world scenario is probably bogus just due to the anthropic principle.

The concern over the eating-the-world scenario was allayed to physicists' satisfaction based on calculations about cosmic rays. The kinds of collisions that would produce strangelets happen constantly to the moon because of the lack of an atmosphere or magnetic field to shield it, and the moon's still there. Statistics suggest, therefore, that these particular concerns are unlikely to be realized.

Re:Relativism

[mrsquid0]

The Planck temperature is the highest temperature that our current physics can work at. Temperatures higher than the Planck temperature require a theory of quantum gravity to understand. The Planck temperature is about 1.4e+32 kelvin. One day, when we have a working theory of quantum gravity, perhaps the maximum possible temperature will be higher, but until then this is the highest temperature that is possible assuming the laws of physics that we know about.