Patna: Senior scientist of the European Council for Nuclear Research (CERN) at Geneva, Archana Sharma, speaking at the ...

During a deeply inelastic collision with a proton, a relativistic electron (highlighted in blue) can emit a high-energy photon (purple here) that penetrates interior of the proton, where it ‘sees’ ...

When scientists fire beams of electrons at atomic nuclei, the resulting scattering patterns usually behave exactly as theory predicts. It’s one of the great strengths of modern nuclear physics. This ...

Fulfilling the dream of medieval alchemists, physicists have observed the transmutation of lead into gold—through nuclear physics at the Large Hadron Collider (LHC), the world's most powerful particle ...

The history of science is never neutral. How Ukrainian identity in physics was erased over decades and why the «Soviet school» is not the same as the «Russian school.» We are bringing the names of ...

Researchers have combined theory and experiments to show that nuclear polarization does not limit studies of muonic atoms, clearing the way for new nuclear physics experiments. University of ...

New benchmark for theoretical modelling The charge radii obtained from muonic helium-3 and helium-4 serve as important reference values for modern ab initio theories — that is, physical models that ...

A mathematical equivalent of a microscope with variable resolution has shed light on why some atoms are exceptionally stable, ...

Nuclear decay and fusion dynamics constitute central pillars in modern nuclear physics, with implications ranging from energy production and astrophysical phenomena to the synthesis of novel elements.

Fulfilling the dream of medieval alchemists, physicists have observed the transmutation of lead into gold—through nuclear physics at the Large Hadron Collider (LHC), the world's most powerful particle ...