Latest Articles for Nuclear Physics

Discover how plutonium captures neutrons and its impact on nuclear science.

New detector improves study of neutron-rich isotopes and nuclear processes.

Discover how artificial intelligence aids in nuclear physics research.

Discover the explosive transformation of white dwarfs into neutron stars.

Scientists study jet quenching to understand the early universe's conditions.

Dive into the fascinating behavior of exotic nuclei and their stability.

Discover the processes behind the creation of heavy elements in the universe.

Dive into the world of nuclear fission and its intriguing spin characteristics.

Discover how spin distributions of fission fragments influence nuclear reactions and energy production.

Examining the angular momentum in fission fragments and its implications.

Discover how Beam Drift Chambers help scientists trace particle paths.

Investigating how mesons affect neutron stars and nuclear matter properties.

Discover the mysteries of X-ray bursts from neutron stars.

Learn how potassium isotopes reveal insights into nuclear physics and particle interactions.

Discover the rare process of double electron capture in nuclear physics.

Discover how scientists tackle uncertainties in nucleon research with new techniques.

Discover the fascinating world of Berkelium isotopes and their significance in nuclear science.

Learn how the universe's lightest elements formed after the Big Bang.

Dive into the challenges and insights of three-body interactions in physics.

Research unveils better methods to study nucleons and their interactions.

Researchers study RF heating effects on plasma and erosion in fusion reactors.

Dive into the study of jets and their role in understanding the universe.

Examining how pairing affects the process and energy of nuclear fission.

Scientists uncover surprising decay behavior in a rare aluminum isotope.

A fresh look at neutron and proton interactions in extreme conditions.

Dive into the fascinating world of charged particle interactions.

FSU's John D. Fox Lab advances nuclear science and experimentation.

Discoveries in thulium isotopes reveal insights into nuclear stability.

Explore the interactions of quarks and gluons in quantum physics.

Scientists refine models to predict nuclear behavior of unstable isotopes.

A look into the EIC's quest to reveal the secrets of protons and neutrons.

Dive into how isotopic transparency reveals the nature of particles in collisions.

Explore how chirally motivated models enhance our grasp of nuclear physics.

Exploring the role of Ge-68 in HPGe detectors and background radiation.

Discover how baryon number and electric charge interact in nuclear matter.

A study reveals new findings about the proton-rich isotope 23Al and its decay.

Innovative strategies to control runaway electrons for safer fusion energy.

Unraveling the mysteries of neutron stars and their cosmic significance.

Unraveling how spin is generated in fission fragments reveals new insights.

Researchers analyze particle distributions to learn about the early universe's matter.