A major new physics experiment has used four complementary analyses ... Scientists never see neutrinos directly; instead, they see the particles that emerge when a neutrino hits an atom inside a ...

A team of researchers has developed a neutrino detector made of germanium crystals. When they installed the detector at the ...

A compact method of detecting neutrinos provides new tests of physics theories and could lead to new reactor-monitoring methods.

In Sheffield, we study the way that neutrino flavours mix as the neutrinos travel from ... In all the history of the Standard Model of particle physics, neutrinos have been the only sector of the ...

A groundbreaking experiment has demonstrated that a compact neutrino detector can effectively identify antineutrinos at a ...

the theory of large extra dimensions offers a potential explanation for the origin of the tiny neutrino masses, a phenomenon that remains unexplained within the Standard Model of particle physics.” ...

By observing how the different flavors evolve during their journey, DUNE scientists hope to unravel several fundamental questions in neutrino physics, such as the hierarchy of neutrino masses ...

Michelle Dolinski, PhD, has a background in nuclear and particle physics, specializing in experimental neutrino physics. Neutrinos, while difficult to study in the laboratory, may be the key to ...

Drexel’s Department of Physics is home to faculty who are leaders in the field of particle physics. Our research spans neutrino properties, neutrino astronomy, and the search for dark matter, and our ...

The physics of these interactions is ... known as DUNE. Whenever a neutrino collides with the nucleus of an atom, the interaction sends a spray of particles careening through the detector.

The discovery of neutrino oscillations was awarded the Nobel Prize in Physics in 2015. There are currently a few unanswered questions in the neutrino sector, which have major implications for our ...