Latest Articles for Nuclear Physics

Research aims to understand unique tetraquarks produced through light interactions.

An overview of cluster formation and freeze-out in nuclear physics.

A study on neutron matter behavior under varying densities and conditions.

Research suggests pion condensation may occur in cosmic events.

A look at ternary fission and the emission of long-range alpha particles.

Research provides new data on the rare isotope Es, shedding light on its decay characteristics.

A look into the Extended Generator Coordinate Method in nuclear physics.

Research links nuclear matrix elements to phase shifts in neutrinoless double-beta decay.

This study examines properties of heavy-light mesons using lattice QCD methods.

This study explores quantum computing's role in simulating nuclear processes.

New module improves accuracy of neutron capture simulations in particle physics.

Exploring energy distribution and dynamics of jets in quark-gluon plasma.

Neutrinos hold secrets about the universe's structure and fundamental forces.

Researchers are redefining parton dynamics using innovative approaches and techniques.

GPDs reveal the internal structure and behavior of protons and neutrons.

Research reveals new insights into proton's inner workings using advanced techniques.

Research on charmed hypernuclei sheds light on nuclear stability and particle interactions.

Investigating spin polarization of hyperons in particle collisions reveals insights into extreme matter conditions.

Recent findings shed light on Zirconium-89's isotopes and neutron absorption.

Research on light nuclei and hypernuclei formation in lead-lead collisions reveals fundamental physics.

A look into how helium-rich matter influences accretion processes.

New method improves understanding of nuclear reactions and interactions.

Exploring the unique properties and interactions of neutrinos in physics.

Researching how initial conditions affect quark-gluon plasma dynamics and hyperon polarization.

A look into how even-odd staggering affects fission fragment yields.

A look into how optical models help predict fission behaviors.

Recent findings reveal complex behaviors of protons in heavy-ion collisions.

Exploring the fascinating outcomes of neutron star collisions and their significance.

This article explores how mesons interact with atomic nuclei and their implications.

Research reveals important findings on low-energy deuteron fusion, impacting clean energy.

Exploring the connection between nuclear fission and quantum entanglement.

Scientists pursue the synthesis of element 119, uncovering new aspects of nuclear physics.

Exploring the significance of octupole deformation in atomic nuclei for physics.

A new emulator improves accuracy and efficiency in studying nuclear reactions.

Scientists study particle behavior under extreme collision conditions.

Examining sputtering issues in heavy-ion experiments for superheavy nuclei synthesis.

Study explores energy loss of jets in quark-gluon plasma during heavy-ion collisions.

Researching gravitational form factors reveals insights into nucleons' internal components.

New methods improve understanding of particle interactions at low energies.

This article explores the behavior and significance of nuclear isomers, focusing on Hafnium.