Latest Articles for Nuclear Physics

Exploring the Skyrme model's implications for understanding nuclear matter and neutron stars.

Research reveals insights into unique particle interactions in ultra-peripheral collisions.

A new program that simulates neutron interactions with NE213 liquid scintillator.

Research on accurate binding energy methods enhances understanding of atomic nuclei.

Study reveals how gravitational waves inform us about supernova explosions and nuclear matter.

Overview of new developments in crystal technology for double-beta decay studies.

Exploring Urca cooling processes and their impact on neutron star behavior.

How internal mixing affects heavy element production in massive stars.

Study examines how pseudoscalar mesons affect proton dynamics through generalized parton distributions.

A look into how quantality influences atomic nuclei behavior.

Exploring the unique properties of neutron stars and supradense matter.

Researching charm particles from high-energy proton collisions for future physics experiments.

Researchers examine how relativistic effects reshape our view of nuclear matter in extreme conditions.

Exploring how photon mass affects atomic interactions and the implications for quantum physics.

NEON experiment investigates axion-like particles, revealing new constraints on their existence.

Exploring quark interactions and phase transitions in a simplified particle physics model.

Researchers investigate unexpected events in low-energy experiments for new physics insights.

Research reveals key mechanisms behind lepton pairs in heavy-ion collisions.

Investigating the interplay of nucleon energy and particle fragmentation for deeper insights.

Exploring the intricacies of nuclear fission and its practical applications in energy.

Examining the vital role of neutrinos in supernova dynamics and flavor conversion.

Researchers study particle collisions to reveal complex nuclear interactions.

The fMeta-TPC enhances nuclear physics research through precise measurements of low-energy interactions.

Exploring the unique structure and reactions of halo nuclei, focusing on beryllium-11.

Researchers introduce PANASh to enhance nuclear calculation methods.

This research analyzes how mesons interact with atomic nuclei and their bound states.

A look into isospin QCD's role in dense matter and neutron stars.

This article explores the unique structures formed by hyperons in atomic nuclei.

This research examines particle behavior under extreme conditions using the NJL model.

Examining how strong screening shapes nuclear reactions in the early universe.

A look into IMSRG and its use of three-body operators in nuclear studies.

Learn how heavy-ion collisions reveal atomic structure and cosmic connections.

A study reveals new findings on supernova nucleosynthesis with Titanium and Nickel.

Examining charm and bottom quarks reveals insights into hot matter created in collisions.

Study reveals how nuclear medium affects pion production in high-energy collisions.

Exploring the connection between ultracold gases and neutron star dynamics.

A look into isoscalar giant resonances and their role in understanding nuclear matter.

Researchers use deep neural networks to improve predictions in nuclear physics.

This study investigates isospin symmetry breaking in mirror nuclei, focusing on the Thomas-Ehrman shift.

This study explores how rotation affects heavy vector mesons in quark-gluon plasma.