It could hardly be more complicated: tiny particles whir around wildly with extremely high energy, countless interactions occur in the tangled mess of quantum particles, and this results in a state of matter known as "quark-gluon ...
General Physics
Jan 25, 2022
1
679
In the first millionths of a second after the Big Bang, the universe was a roiling, trillion-degree plasma of quarks and gluons—elementary particles that briefly glommed together in countless combinations before cooling ...
Plasma Physics
Jan 21, 2022
8
3148
Scientists have reported new clues to solving a cosmic conundrum: How the quark-gluon plasma—nature's perfect fluid—evolved into matter.
General Physics
Sep 16, 2021
0
650
Researchers from the University of Science and Technology of China (USTC) of the Chinese Academy of Sciences, together with international collaborators, observed an obvious enhancement in the yield ratio between strange (Ds±) ...
Quantum Physics
Sep 16, 2021
1
127
In the early stages of the Universe, quarks and gluons were quickly confined to protons and neutrons which went on to form atoms. With particle accelerators reaching increasingly higher energy levels the opportunity to study ...
Plasma Physics
Aug 6, 2021
11
744
A new result from the ATLAS Collaboration at CERN studies the interactions of photons—particles of light—with lead nuclei at the Large Hadron Collider (LHC). Using new data collection techniques, physicists revealed an ...
Condensed Matter
Jul 13, 2021
7
228
Inside each proton or neutron there are three quarks bound by gluons. Until now, it has often been assumed that two of them form a "stable" pair known as a diquark. It seems, however, that it's the end of the road for the ...
General Physics
Jun 10, 2021
5
318
Researchers from University of Copenhagen have investigated what happened to a specific kind of plasma—the first matter ever to be present—during the first microsecond of Big Bang. Their findings provide a piece of the ...
Condensed Matter
May 21, 2021
73
3789
When heavy ions, accelerated to the speed of light, collide with each other in the depths of European or American accelerators, quark-gluon plasma is formed for fractions of a second, or even its 'cocktail' seasoned with ...
General Physics
Apr 29, 2021
1
112
The Large Hadron Collider (LHC) at CERN usually collides protons together. It is these proton–proton collisions that led to the discovery of the Higgs boson in 2012. But the world's biggest accelerator was also designed ...
General Physics
Dec 18, 2020
0
435
