The sPHENIX detector passed calibration, paving the way to study quark-gluon plasma and unlock secrets of the early universe.

A new particle detector has passed a crucial test, demonstrating it's ready to start investigating quark-gluon plasma, the ...

A new and powerful particle detector just passed a critical test in its goal to decipher the ingredients of the early ...

The sPHENIX detector at Brookhaven passes its first big test, proving ready to study quark-gluon plasma born just after the ...

In a remarkable new study featured in Physical Review Letters, scientists from the University of Minnesota Twin Cities have ...

In a recent paper for the Journal of High Energy Physics, researchers with the sPHENIX Collaboration announced that it had ...

Just as ocean waves shape our shores, ripples in space-time may have once set the Universe on an evolutionary path that led to the cosmos as we see it today.

New data on baryon acoustic oscillations strengthen the case for a local cosmic void. The finding offers a possible solution ...

“Magnetic reconnection, turbulence and shocks are three fundamental ingredients of the plasma Universe,” says Philippe Escoubet Cluster and Double Star project scientist at ESA.

The University of Alabama in Huntsville is producing results in plasma science and engineering during a 10-year federal investment.

Only recently have scientists realized that most of the universe is neither gaseous, liquid or solid. It is plasma, a lively, tricky, often dangerous state of matter whose distinctive ...