Gauge/string duality offers a powerful framework to investigate deep inelastic scattering (DIS) by relating strongly coupled gauge theories to weakly coupled string theories in higher-dimensional ...

Muon Collaboration: J.G. Ashman, B. Badelek, G. Baum, J. Beaufays, et al., "An investigation of the spin structure of the proton in deep inelastic scattering of ...

In a unique analysis of experimental data, nuclear physicists have made observations of how lambda particles, so-called 'strange matter,' are produced by a specific process called semi-inclusive deep ...

Scientists are holding up a "mirror" to protons and neutrons to learn more about the particles that build our visible universe. The MARATHON experiment, carried out at the U.S. Department of Energy's ...

Nucleons, which include protons and neutrons, are the composite particles that make up atomic nuclei. While these particles have been widely studied in the past, their internal structure has not yet ...

Neutron scattering is a powerful analytical technique that utilizes neutrons to probe the structure, dynamics, and properties of materials at the atomic and nanoscale level. It provides unique ...

Gauge/string duality has emerged as a transformative framework for understanding the intricate dynamics of strong interactions. By establishing a correspondence between certain gauge theories and ...