CERN's ALICE experiment has resolved the puzzle of deuteron formation, showing that most deuterons form via resonance-driven ...

The study of mesons under the influence of strong magnetic fields in nuclear matter has emerged as a pivotal area in contemporary nuclear and particle physics. In these extreme conditions, mesonic ...

Scientists have the first direct evidence that the powerful magnetic fields created in off-center collisions of atomic nuclei induce an electric current in 'deconfined' nuclear matter. The study used ...

Analysis of particle emission ratios in heavy-ion collisions reveals that anomalous yield patterns can indicate the formation of quark-gluon plasma (QGP). This approach distinguishes QGP from hadronic ...

The binding energies per particle for (a) symmetric nuclear matter (SNM) and (b) pure neutron matter (PNM) calculated with (solid lines and full symbols) and without (dotted lines and empty symbols) ...

In a groundbreaking studypublished in Physical Review X, researchers led by Professor Gilad Perez from the Weizmann Institute of Science have proposed a revolutionary method for detecting dark matter ...

Physicists are exploring thorium-229’s unique properties to create a nuclear clock so precise it could detect the faintest hints of dark matter. Recent measurement advances may allow scientists to ...