Latest Articles for Atomic Structure

Scientists investigate tetraquark particles to reveal their unique properties and internal structures.

Research reveals how dineutrons interact in Borromean nuclei, impacting nuclear stability.

A new approach links short-range particle behavior to broader system properties.

This study examines the interactions between helium-4 and bismuth in nuclear collisions.

This research examines how spin and OAM influence proton behavior.

A look into the internal structure of protons and the significance of GPDs.

Understanding how neutrons interact within atomic nuclei shapes nuclear physics.

Research on neutron skin through Ru and Zr collisions in particle accelerators.

Research highlights interactions of nucleons and their effects on matter behavior.

Study reveals the proton emission behavior of Lutetium-176 and its half-life.

An overview of nuclear pairing types and their implications in atomic physics.

Examining photonuclear reactions reveals unique isomeric states in molybdenum.

Investigating isomer states in odd-even isotopes of Md and Rg nuclei.

Research reveals important energy differences in atomic nuclei with advanced modeling techniques.

An examination of the localization function's effectiveness in understanding nucleon behavior.

Research reveals how nucleon clustering affects neutron skin thickness in nuclei.

Explore the forces and particles shaping nucleon interactions within atomic nuclei.

A new approach improves the analysis of nuclear collective motions and behaviors.

Scientists investigate hydrogen's energy levels to advance theories in physics.

Examining fission processes of superheavy nuclei, focusing on level density and entropy.

Researchers assess CALI detector prototype for precision energy measurements at the Electron-Ion Collider.

A detailed look into magnetic quadrupole moments and parity-violating polarization in Lutetium.

Gluons play a vital role in understanding atomic nuclei.

Upcoming experiments will enhance knowledge of protons and neutrons through neutrino interactions.

Analyzing the effects of polarized neutrons and weak nuclear interactions.

Study reveals intricate details of the isoscalar giant monopole resonance in atomic nuclei.

New findings challenge traditional methods of measuring total energy in materials.

A look into Efimov states and their implications in nuclear physics.

Research reveals distinct shape behaviors in Mo and Ru isotopes.

New insights reveal unexpected behaviors in cadmium isotopes' nuclear structure.

A look into the significance and applications of pseudospin symmetry in atomic nuclei.

Exploring the unique properties and decay behaviors of K isomers in nuclear science.

Study of interactions between light nuclei and conditions for stability.

Examining the dynamics of heavy-ion fusion and its implications for energy and nuclear physics.

Understanding nuclear mass reveals insights into atomic nuclei behavior and stability.

A deep dive into how nuclear deformation shapes atomic behavior.

Researchers capture dynamic nuclear shapes using high-energy collisions, refining our understanding of nuclear structure.

Exploring the unique behavior of nuclei through wobbling motion.

A study reveals how tensor forces shape nuclear structure in silicon and nickel isotopes.

This article discusses how BW perturbation theory aids in understanding open-shell nuclei.