The strength of the strong force is set by the value of its coupling αs. At small distances, much smaller than a fermi (1 fermi = 10-15m, about the size of a proton), αs is small and the strong force can be studied with the standard methods of perturbation theory. This discovery by David J. Gross, H. David Politzer and Frank Wilczek was acknowledged by the 2004 Nobel Prize in Physics.
Jefferson Lab has become the acknowledged world leader in the development of an innovative use of electron linear accelerators (linacs) in light sources and, potentially, particle colliders: the energy-recovering linac, or ERL. Jefferson Lab built the first ERL with high average current to drive the first kilowatt-scale free-electron laser.
Generalized parton distributions (GPDs) unify the concepts of the nucleon elastic form factors (measured in elastic eN scattering) and parton distributions (measured in inclusive deep-inelastic eN scattering). GPDs describe the form factors for the emission and absorption of a quark/gluon by a fast-moving nucleon, depending on the quark's longitudinal momentum fraction, and the invariant momentum transfer to the nucleon, t.
For the first time, Jefferson Lab’s Continuous Electron Beam Accelerator Facility delivered beams for experiments simultaneously to all four of its experimental halls: Halls A, B and C, as well as its newest hall, Hall D.
Jefferson Lab continues to develop innovative solutions to problems shared by the accelerator community. A common challenge in accelerators based on superconducting radiofrequency technology (SRF) is the presence of additional radiofrequency waves inside the accelerator cavities, in addition to the primary frequency needed for accelerating particles. These so-called higher-order modes (HOMs) can seriously degrade beam quality.
The Jefferson Lab Free-Electron Laser was used by Rox Anderson’s group from the Wellman Center at Massachussetts General Hospital, part of Harvard Medical School, for a series of experiments aimed at curing acne, a debilitating disease of over-active sebaceous glands. Currently the drug Accutane® (generically called isotretinion) is used to treat acne, but its side effects can be worse than the disease.
Most known particles have either 3 quarks (baryons) or a quark-antiquark pair (mesons). The pentaquark is defined as a subatomic particle consisting of 4 quarks and one antiquark. If the pentaquark exists, then it would be a breakthrough in our understanding of how quarks can be put together to form composite particles. However, while there were claims by several experiments around the world for a pentaquark (now called the Θ+), newer, higher-statistics experiments put in doubt some of the earlier data claiming evidence for the Θ+.
While the proton is most simply described as a bound state of three quarks (2 up and 1 down), a more complete description includes a sea of gluons and virtual quark/anti-qu
The nucleus can often be approximated as an independent collection of protons and neutrons confined in a volume, but for short periods of time, the nucleons in the nucleus can strongly overlap. This quantum mechanical overlapping, known as a nucleon-nucleon short-range correlation, is a manifestation of the nuclear strong force, which produces not only the long-range attraction that holds matter together, but also the short-range repulsion that keeps it from collapsing.
