Left: Artistic impression of metal spheres buried in small glass beads. Middle: Conventional ultrasound picture. Right: With the new technology, the positions of the metal spheres can be precisely ...

Nuclear structure and scattering theory form the core of our understanding of atomic nuclei, unraveling how protons and neutrons interact via the strong force and arrange themselves into complex ...

Neutrinos remain among the most intriguing particles in nature due to their elusive mass, weak interactions and pervasive presence in the cosmos. Recent experimental breakthroughs have enabled the ...

Can we reveal objects that are hidden in environments completely opaque to the human eye? With conventional imaging techniques, the answer is no: a dense cloud or layer of material blocks light so ...

We conduct research in experimental nuclear and hadronic physics. Our core research program centers on five areas: Many of our experiments use the intense 12 GeV electron beam at Jefferson Lab in ...

Physicists have caught neutrinos from a nuclear reactor using a device weighing just a few kilograms, orders of magnitude less massive than standard neutrino detectors. The technique opens new ways to ...