Latest Articles for Particle Interactions

Research on B-type theories enhances our grasp of quantum physics and string theory.

Discovering how hyperons interact in atomic nuclei provides insights into extreme matter environments.

Research shows breakup dominates at low energies for neutron-halo projectiles and heavy targets.

A look into how charges behave in high-energy physics through one-point correlators.

Research on ultracold atoms reveals new phases of matter and particle interactions.

Pseudomodes help approximate complex quantum behaviors effectively and efficiently.

Explore the complex processes of scattering and the role of Feynman integrals.

This article examines how deuterons interact with heavy nuclei at low energy levels.

Exploring the basics of gradient flow in quantum field theory and its numerical evaluation.

Examining how half-shell components affect nuclear reaction behavior and predictions.

A look into three-body systems and the Beryllium isotope's role in nuclear interactions.

This article explores the use of Gaussian functions in particle physics calculations.

Research sheds light on how light nuclei form in extreme nuclear environments.

Quantum computers offer new methods to simulate quantum field theories effectively.

Exploring how thermal pions influence nuclear matter and bulk viscosity in extreme environments.

Research on mesons reveals insights into their behavior within atomic nuclei.

New techniques simplify complex calculations in quantum field theory.

Research on ultracold gases reveals unique physics in low-dimensional systems.

Exploring how many-body systems resist thermalization and retain their localized states.

New model improves predictions for nuclear properties and neutron stars.

An overview of Gaussian integrals in quantum field theory and their significance.

Researchers examine large-angle collisions impacting fusion processes in burning plasmas.

A look into how partons interact and the role of splitting amplitudes.

This article examines how particles impact fluid behavior in lid-driven cavities.

An overview of the background field method and Wilson actions in quantum field theory.

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

This article discusses three-loop calculations of electron self-energy in quantum electrodynamics.

This article discusses the impact of parity-breaking operators on particle interactions.

Discover the key concepts in supersymmetric Yang-Mills theory and its simplified models.

A look at techniques for calculating Feynman integrals and their significance.

A look into Feynman amplitudes and their significance in particle interactions.

A look into how particles interact through scattering amplitudes.

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

Researchers study quantum vortices to gain insights into many-body systems.

Examining how particle size affects quantum interference and measurements.

Explore gauge theories and weak gauge PDEs in modern physics.

This article reviews the role of topological defect lines in quantum physics.

Study of quantum systems revealing transitions based on particle arrangements and interactions.

Examining limits on parameters in effective field theories and their implications.

Exploring how transfer learning aids in studying electron interactions with atomic nuclei.