Efforts to construct an accelerator facility where neutrinos are produced through muon decays are ongoing.

The Tandem Van de Graaff at Brookhaven National Laboratory was built in 1970 and was at the time the world's largest electrostatic accelerator facility.

Henning played the central role in attaining the funding to have an accelerator facility built at GSI Darmstadt, Germany's premier nuclear physics research facility.

In addition to operating its own large accelerator facilities, DESY also provides consulting services to research initiatives, institutes and universities.

The types of experiments done at a particular accelerator facility are determined by characteristics of the generated particle beam such as average energy, particle type, intensity, and dimensions.

In the past two decades, though, there has been a growing number of accelerator facilities for which superconducting cavities were deemed more suitable, or necessary, for the accelerator than normal-conducting copper versions.

Of course, most accelerator facilities have numerous SRF cavities, so the refrigeration plants can get to be very large installations.

Due to its definition, it also occurs in the dipole magnets of modern accelerator facilities and must be considered in beam optics calculations.

The combination of time-dependent guiding magnetic fields and the strong focusing principle enabled the design and operation of modern large-scale accelerator facilities like colliders and synchrotron light sources.

Mass obtained in this way is far too small with respect to what is seen in accelerator facilities and so a conformal Standard Model needs more than one Higgs particle.