Latest Articles for Particle Interactions

Exploring effective field theories and their role in nuclear physics.

Researchers study D_s0^ + (2317) for insights into particle interactions and properties.

A deep dive into the phases and critical points of Quantum Chromodynamics.

This article explores isospectrality and configurational entropy in hadronic physics.

This article investigates the Abelian Higgs model's dynamics in curved anti-de Sitter space.

Explore the fascinating interactions between monopoles and fermions in high-energy physics.

A look into the unique energy patterns of three interacting particles.

A look at how renormalization shaped physics over the decades.

New method improves accuracy of charge state measurements in nuclear physics.

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

A look into pp-waves and their effects on time delays in gravitational fields.

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

Exploring nuclear matter and the role of the parity-doublet model in extreme conditions.

A look into the unique behavior of quantum droplets in various conditions.

Exploring non-invertible symmetries and their implications in quantum field theories.

New methods simplify the calculation of gravitational amplitudes and reveal deeper insights.

Research shows machine learning can predict non-Hermitian phase boundaries using Hermitian data.

A look into beta decay and the significance of the Fermi function in nuclear physics.

Research reveals how electric fields affect QCD matter behavior.

Exploring the lattice Yang-Mills model and its significance in understanding particle interactions.

A fresh theory merges classical electromagnetism with quantum electrodynamics for better understanding.

This research delves into the links between geometry and quantum gravity theories.

New imaging techniques shed light on quantum behaviors in nuclear particle interactions.

An examination of the U(1) gauge field in Rindler coordinates reveals fascinating insights.

Lattice propagators simplify the study of particle interactions in physics.

New methods enhance quantum measurements using multilevel atoms in optical cavities.

A look into particle physics and new methods for studying fundamental interactions.

Research on soft gravitons enhances our grasp of gravity's fundamental nature.

QMBS challenge our views on thermalization in quantum systems.

Exploring the link between space and spin to better understand the universe.

A look into non-integrable spin chains and their quasiparticle interactions.

Exploring the behavior and interactions of dipole emitters in quantum systems.

Exploring how particles interact at phase boundaries and create gravitational waves.

Study of interactions between light nuclei and conditions for stability.

A guide to Feynman graphs and their role in quantum field theory.

Examining how particle charge affects nuclear beta decay interactions.

This article presents a simplified method for analyzing particle interactions.

An overview of the two-body Coulomb problem and its implications in physics.

Discover the significance of transgression forms in gauge theories and their applications.

Study of neutron interactions reveals crucial insights about nuclear forces and stability.