Latest Articles for Nuclear Physics

Negative triangularity reactors may enhance fusion efficiency and performance.

EIC aims to deepen knowledge of matter's fundamental structure through advanced experiments.

This study examines chiral condensates under varying baryon densities in nuclear matter.

MC/DC software enhances neutron transport simulations for better accuracy and efficiency.

A significant study finds no signs of sterile neutrinos in recent experiments.

Examining light nuclei helps reveal essential insights into extreme matter behavior.

Learn how the first atomic nuclei shaped our universe.

Research on jet production reveals insights into quark-gluon plasma behavior.

Exploring new energy distributions to enhance fusion reactivity for sustainable energy.

New findings challenge the traditional view of atomic nuclei shapes.

Exploring the unique properties of neutron stars, including chirality and superfluidity.

This study explores quantum computing techniques for analyzing nuclear resonances.

A new approach offers efficient estimation of vibrational level density in atomic nuclei.

Research sheds light on chromium-46's unique properties and behavior.

Examining the interplay of fluids, magnetism, and spin in high-energy environments.

An overview of neutron skin and its role in nuclear reactions and astrophysics.

Research sheds light on nucleon spin and its implications for particle physics.

Scientists refine models to study superheavy elements like Nobelium.

Research on charge radii helps refine our knowledge of nuclear properties and interactions.

Examining the effects of heavy ion collisions and the glasma on quarks.

Studying glasma behavior in heavy-ion collisions reveals critical insights into matter's evolution.

Understanding the He-Be reaction is vital for stellar processes and solar neutrinos.

Exploring radium-224's unique properties and its potential in technology.

This article examines how nuclei react to electron impacts.

This article explores the role of seniority in nuclear interactions and recent findings.

Research reveals interactions between charm and strange dibaryons through lattice QCD methods.

A look into how fission fragments spin and vibrate during nuclear reactions.

Learn about rare beta decay processes and their significance in nuclear physics.

Recent findings reveal insights into particle jets from lead-lead collisions.

Discover recent developments in nuclear masses and fission barriers using the liquid drop model.

Investigating how magnetars produce and maintain their powerful magnetic fields.

New techniques improve atomic mass measurements, aiding nuclear physics and modeling.

Quark saturation is key to understanding extreme matter states in physics.

An overview of baryon behavior during state transitions and their significance.

Understanding how supernovae produce essential heavy elements for the universe.

Research on charmonium reveals properties of matter formed in heavy-ion collisions.

Explore the Standing Accretion Shock Instability and its effects on supernovae.

Research uncovers new energy states in potassium isotope K-40, challenging existing models.

A study on the structural responses of the MAST-U tokamak under various loads.

This study investigates uncertainties in parton shower simulations and their effects on jet behavior.