For the first time, a research team has successfully produced one of the most neutron-rich isotopes, hydrogen-6, in an electron scattering experiment. The experiment at the spectrometer facility at ...

Scattering takes place across the universe at large and miniscule scales. Billiard balls clank off each other in bars, the nuclei of atoms collide to power the stars and create heavy elements, and ...

Jefferson Lab experiment E99-114 — the so-called Real Compton Scattering, or RCS, experiment — explores the scattering of few-GeV photons off the proton at large scattering angles, under which ...

Understanding how atoms collectively interact with light is important for both fundamental studies and the design of light–matter interfaces in quantum technologies. Over the past decades, many ...

The experimental neutron scattering pipeline can be abstracted into four aspects 2, shown schematically in Fig. 1a. The first one, (I), consists in the modelling of the material under study and the ...

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 ...

Schematics of the all-optical nonlinear Compton scattering experiment showing laser-driven electron acceleration, electron-laser collision, and Compton scattering to produce gamma rays. In a ...

Small angle X-ray scattering, or SAXS, is an experimental method where the intensity of the scattered X-rays is measured as a function of the scattering angle. The information obtained in a SAXS ...

Please acknowledge the SIP core facility ( RRID: SCR_018986) in publications, on posters, or in talks if you use any instruments in the SIP core facility. Please include SIP's RRID (RRID: SCR_018986) ...