Latest Articles for Particle Interactions

An overview of neutron-proton scattering and its significance in nuclear studies.

Study on how particle interactions change under varying conditions.

Research reveals new excited states of nitrogen, enhancing the understanding of nuclear structure.

Study of beta decay reveals important nuclear properties of Barium and Lanthanum isotopes.

Researchers study Higgs boson interactions with quarks through particle collisions.

A new approach to scattering theory considers memory effects in massless particle interactions.

A new approach improves simulations for quasi-2D particle interactions.

A study on the interactions of light and nucleons for deeper insights into matter.

Examining how fermions behave under magnetic influences and transitions between phases.

This article explores the extended Bose-Hubbard model and its implications in one-dimensional systems.

Study reveals key interactions in nuclear photoproduction and their implications for nuclear physics.

Unraveling the mysteries of beta decay and its implications on physics.

Dive into the connections between geometry and physics in five-dimensional theories.

Examining Yukawa couplings and their significance in quantum gravity.

A new perspective on electrodynamics using tensor fields to enhance interaction understanding.

Research on stubs enhances our grasp of string interactions.

Study of nucleon interactions reveals key insights through effective range parameters.

A look into the unique behavior of one-dimensional quantum systems and their interactions.

Exploring the impact of noncommuting charges on quantum thermalization processes.

This article explores how light particles interact with larger matter through background-induced forces.

This study focuses on scalar dark matter and its effect on Higgs vacuum stability.

Recent research sheds light on the complexities of strongly-coupled gauge theories.

Examining the unique properties of momentum space in quantum gravity research.

Discover how diagrams simplify the study of particle interactions in quantum field theory.

Researchers reveal new constraints on spin interactions using advanced quantum sensors.

Exploring the interactions and theories behind the Generalized Calogero-Moser system.

A look into quantum field theory and the methods used to analyze particle interactions.

An overview of plasma instabilities in gyrokinetic studies and their implications.

A look at particle physics concepts with a focus on mathematical connections.

A look into quantum field theories and their simpler models.

This article examines bremsstrahlung during proton-nucleus scattering and its implications.

Researchers use machine learning for efficient parton distribution function calculations.

Understanding quasiparticles and their interactions can unlock new physics in complex systems.

Quantum sensing improves measurement accuracy, revealing insights into particle interactions.

Exploring the behavior of protons through scattering and its significance in nuclear physics.

Investigating the influence of light clusters on nuclear matter behavior.

An overview of wobbling motion in triaxial nuclei and its significance.

A look into Dirac ensembles and their role in understanding fuzzy geometries.

Researching particle interactions in impulsive plane wave backgrounds reveals insights into fundamental physics.

Examining the interplay of superconductivity, vortices, and particle interactions.