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Pressure in the middle of a proton is about 10 times higher than in a neutron star.
Storing extremely slow neutrons in a novel trap enables precise measurement of a basic property of particle physics.
Yes. Such condensates, analogous to those in carbon-12, in heavier nuclei could change how we describe certain elements.
The MicroBooNE experiment demonstrates the use of machine learning to interpret images made by a liquid-argon particle detector.
New model provides more accurate estimates of how fast microbes produce a mercury-based neurotoxin.
First direct measurement show how heavy particles containing a charm quark get caught up in the flow of early universe particle soup.
Particle flow patterns suggest even small-scale collisions create drops of early universe quark-gluon plasma.
The first-ever computation of an atomic nucleus, the deuteron, on a quantum chip demonstrates that even today’s rudimentary quantum computers can solve nuclear physics questions.
Elegant techniques of trapping and polarizing atoms open vistas for beta-decay tests of fundamental symmetries, key to understanding the most basic forces and particles constituting our universe.
A new measurement using a beam of aluminum-26 prepared in a metastable state allows researchers to better understand the creation of the elements in our galaxy.
The size of a nucleus appears to influence the direction of certain particles emitted from collisions with spinning protons.
MicroBooNE neutrino experiment cuts through the noise, clearing the way for signals made by the hard-to-detect particle.
