Latest Articles for Nuclear Science

A look at how different statistical methods affect uncertainty in nuclear science.

This study improves our understanding of meson production during heavy-ion collisions.

Researchers uncover unique wobbling motions in Palladium, revealing new atomic behaviors.

The sTED improves neutron detection efficiency and accuracy in high flux environments.

New methods in deep learning for accurate predictions of nuclear cross sections.

The SoLid experiment seeks to understand antineutrino behavior near a reactor in Belgium.

Studying nucleon states reveals insights into atomic structure and fundamental forces.

Researchers explore using twisted light to enhance nuclear clock accuracy with thorium.

Research on mesons and their production through photon-induced nuclear interactions.

A new model predicts turbulent behavior, aiding future fusion reactor designs.

An overview of how three-body forces shape particle interactions in various systems.

An overview of quarks and their impact on nuclear properties.

Research on deuteron interactions with molybdenum is essential for nuclear energy safety.

New plastic scintillators improve neutron detection for nuclear safety.

Exploring how tellurium isotopes contribute to element formation in stars.

Recent findings on Technetium's decay energy shed light on neutrinos.

This study investigates charge distribution in simple atomic nuclei using electron scattering data.

A look at neutron behavior and its significance in nuclear applications.

Research at CERN provides crucial data on neutron capture for nuclear reactors.

Investigating how neutrinos interact with matter through various experiments.

Research refines model connections in nuclear collisions for better predictions.

Scientists create Livermorium, deepening our understanding of superheavy elements.

Nuclear clocks offer unparalleled precision by utilizing unique nuclear properties.

Study reveals how breakup affects complete fusion in nuclear reactions.

Recent findings reveal crucial data on uranium-233's neutron capture cross section.

Isotope shifts provide insights into nuclear properties and fundamental physics.

Research on neutron yields aids in minimizing background noise in rare event detection.

Research on dielectrons reveals key insights into matter behavior in extreme conditions.

New methods enhance gas flow simulations, aiding divertor design in fusion reactors.

A new approach enhances neutron transport efficiency using a Transformer model.

Uncovering the building blocks of matter: nucleons, quarks, and gluons.

A clear explanation of nuclear fission and its significance in energy production.

Exploring the behavior of halo neutrons and their effects on atomic decay.

Discover how scientists detect thermal neutrons and the challenges they face.

Discover how heavy elements are created in the cosmos through neutron stars.

Polarized neutron imaging reveals magnetic fields in YBCO superconductor tape.

Explore how structured neutrons decay and influence particle behavior.

Learn how scientists study the movement of particles in atomic nuclei.

Scientists examine neutrinos to uncover the matter-antimatter mystery.

Explore how nuclear masses affect element creation in the universe.