Latest Articles for Nuclear Physics

Research reveals how clustered nuclei affect particle behavior in high-energy collisions.

A closer look at bulk viscosity's role in neutron star mergers.

A look into nucleons, their mass, spin, and the forces that hold them together.

Neutron star mergers reveal insights into heavy element formation and extreme matter behavior.

Examining particle behavior through intensity interferometry in heavy-ion collisions.

Research advances our understanding of nucleon spin beyond simple quark models.

Investigating the dynamics and properties of quark-gluon plasma in particle collisions.

Examining how half-shell components affect nuclear reaction behavior and predictions.

Exploring shape changes and stability in atomic nuclei through neutrons and phase transitions.

COLOSS simplifies nuclear scattering research through advanced computational techniques.

This study examines the equation of state for nuclear matter in heavy-ion collisions.

An exploration of twist-3 GPDs and their role in proton structure.

A new method combines soft and hard particle interactions for deeper physics insights.

A look into three-body systems and the Beryllium isotope's role in nuclear interactions.

Examining unique flow patterns in nucleus-nucleus collisions at the LHC.

This article explores the use of Gaussian functions in particle physics calculations.

This piece examines how nucleon behavior changes when in a nuclear environment.

Investigating how nucleons interact and affect their effective mass in various environments.

An overview of nuclear matter and the properties of neutron stars.

Explore how protons behave in carbon nuclei and improve models using new data.

Research sheds light on how light nuclei form in extreme nuclear environments.

Researchers are enhancing target production methods with a new plating technique.

Exploring how thermal pions influence nuclear matter and bulk viscosity in extreme environments.

This study examines how jet size influences energy loss in heavy ion collisions.

Key insights into nucleon structure and interactions through form factors.

Research on mesons reveals insights into their behavior within atomic nuclei.

Exploring how cold nuclear matter alters particle production in heavy-ion collisions.

Exploring how symmetry energy influences alpha decay rates in atomic nuclei.

Analyzing complex systems through random matrix models in various fields of physics.

Research on kaonic atoms reveals complex interactions in nuclear environments.

Research reveals important details about pions and the strong force.

Scientists harness neural networks to improve understanding of nuclear reactions at low energies.

Research sheds light on neutron matter behavior and neutrino interactions.

A new approach using Kolmogorov-Arnold Networks improves predictions of nuclear binding energy.

Research on jet production provides insights into the quark-gluon plasma.

This article explores pion and kaon properties using lattice QCD techniques.

Explore how bootstrap current impacts nuclear fusion reactor efficiency and stability.

This research analyzes the Hulth en potential using ordinary and superstatistical methods.

Looking at the significance of three-body forces in quark interactions.

Examining the axial current, its anomalies, and quark mass influences in particle interactions.