Latest Articles for Atomic Structure

Light nuclei show unexpected changes in moment of inertia with deformation.

Study examines how atomic nuclei shape affects particle behavior in collisions.

Recent findings deepen our knowledge of complex nuclear behaviors.

Researchers improve muonic hydrogen excitation probability using advanced laser techniques.

New measure enhances understanding of alpha particle formation in atomic nuclei.

Research reveals insights into nucleon behavior in neutron-rich environments.

This article examines electron behavior and energy minimizers in atomic models.

New methods improve understanding of solid-solid phase transitions in materials science.

Exploring the decay patterns of superheavy nuclei and their implications for new elements.

Investigating neutron-rich isotopes of neon and magnesium reveals complex nuclear behaviors.

New methods enhance understanding of atomic nuclei shapes and interactions.

Exploring the complex shapes of mercury isotopes and their effects on nuclear properties.

Researchers achieve precise measurement of muonic helium-3 nucleus size.

Study explores energy levels and properties of polonium isotopes using shell-model calculations.

Exploring how nuclear shapes and initial fluctuations affect particle outcomes in collisions.

Exploring the interactions of nucleons and their influence on atomic behavior.

The lightly bound Skyrme model offers new insights into atomic nuclei.

An investigation into the precise measurement of proton size using muon interactions.

Research unveils trends in neutron-deficient indium isotopes and their isomers.

Research on ions of Holmium and Dysprosium aids understanding of neutrino mass.

Using quantum computing to study the neutron drip line in oxygen isotopes.

This article explores the various shapes and behaviors of atomic nuclei.

Research on neutrinoless double beta decay reveals insights into neutrinos and atomic processes.

Study reveals unique rotational behavior of pear-shaped Ru nucleus and its implications.

This article discusses machine learning's role in analyzing nuclear reactions.

Examining neutron distribution in atomic nuclei through recent experimental findings.

This paper discusses measuring nuclear charge radii in Calcium and Lead using muonic atoms.

This article discusses the structure and properties of heavy nuclei.

Investigating how electrons interact with nucleons reveals insights about quarks and gluons.

A look at the nuclear behaviors of Cobalt and Nickel's excited states.

Studying xenon's EDM could shed light on matter-antimatter asymmetry.

Recent studies reveal unexpected behaviors in unstable neon isotopes.

A machine-learning tool efficiently identifies groups of similar atoms in complex materials.

Exploring the magnetic interactions of nickel and sulfur in unique atomic arrangements.

Research sheds light on tetraquarks and their properties linked to hadronic molecules.

Research on pions reveals insights into atomic nucleus interactions and particle properties.

A look into the Schiff moment of europium-153 and its implications for physics.

An overview of neutron resonances and their significance in nuclear physics.

Research reveals how nucleons interact and the role of entanglement in atomic structures.

Research reveals complex behaviors in neutron-rich nuclei and their pygmy states.