Latest Articles for Nuclear Physics

Researchers at Texas A&M are enhancing radioactive ion beam production for nuclear studies.

Study examines gamma ray emission during neutron capture in gadolinium isotopes.

Study of electron-positron pairs reveals insights into fission and decay dynamics.

New insights into baryon interactions in dense nuclear environments from heavy-ion collisions.

New developments are enhancing polarized ion sources for nuclear physics research.

Research reveals insights into neutron stars and potential quark matter in their cores.

New upgrades in CRIS boost research on radioactive elements and nuclear forces.

A look into the internal structure of hadrons and their dynamics.

Exploring the significance of neutron stars and three-nucleon forces in our universe.

Study reveals how flow changes affect hadron behavior during heavy-ion collisions.

Examining how neutrinos interact with atomic nuclei and implications for dark matter detection.

Research on octupole deformation reveals unique nuclear behaviors and stability.

Scientists study baryon number distributions to understand matter and the universe.

Exploring isolated resonances and their implications in many-body particle interactions.

This study focuses on particle interactions in ultraperipheral collisions involving heavy ions.

An analysis of uranium isotopes' ground state and fission characteristics.

A new infrared light-guide system improves target positioning in nuclear physics.

This article discusses the concept of transparency and its importance in nuclear physics.

A look into how protons and neutrons are organized in atomic nuclei.

A new tool enhances study of jets in heavy-ion collisions and quark-gluon plasma.

Examining knockout reactions reveals insights into atomic nucleus behavior.

Study reveals how jet energy loss varies by particle type in quark-gluon plasma.

Researchers are refining models to better understand neutron stars through recent experimental findings.

Study reveals key aspects of heavy-flavour jets in quark-gluon plasma.

Examining the behaviors of matter close to the QCD critical point.

Researchers study Neon-20 to improve understanding of nuclear behavior and reactions.

Research into how vacuum changes lead to particle pair creation during collisions.

Exploring the intricate interactions in neutron star collisions and their effects on plasma behavior.

A look into the complexities of nuclear fission processes and interactions.

This paper studies the behavior of neutron-deficient tin nuclei and their quadrupole collectivity.

Research reveals how clustering impacts nuclear decay processes.

Examining how proton distribution changes in heavy-ion collisions.

Research sheds light on cluster dynamics in nuclear reactions at Fermi energies.

A study of giant dipole resonance in stable Molybdenum isotopes reveals nuclear structure insights.

This method improves how bosons are analyzed in atomic nuclei.

A look at nuclear fission, its dynamics, and the factors influencing it.

A look into nuclear reactions involving Lithium-6 and its interactions with other particles.

Research explores how fermions behave in extreme magnetic conditions.

Explore new findings on how particles form stable states in nuclear physics.

Exploring how heavy elements spread throughout galaxies and influence their chemical composition.