Conceptually, small-angle scattering experiments are simple: the sample is exposed to X-rays or neutrons and the scattered radiation is registered by a detector.

Inelastic scattering experiments normally require a monochromatization of the incident or outgoing beam and an energy analysis of the scattered neutrons.

The first evidence for the existence of quarks came in 1968, in deep inelastic scattering experiments at the Stanford Linear Accelerator Center.

He received a Ph.D. in physics from Stanford University in 1967 for work on nuclear scattering experiments.

The polarized targets are used as fixed targets in the scattering experiments.

The first evidence for quarks as real constituent elements of hadrons was obtained in deep inelastic scattering experiments at SLAC.

Starting in 1969, deep inelastic scattering experiments at SLAC revealed surprising experimental evidence for particles inside of protons.

The term invariant mass is also used in inelastic scattering experiments.

The shape resonances were observed around the years 1949-1954 in nuclear scattering experiments.

J. M. Blatt and Herman Feshbach for nuclear scattering experiments.