Latest Articles for Particle Interactions

This study examines the behavior of interacting particles in driven-dissipative systems.

Examining the staggered six-vertex model reveals critical behaviors and phase transitions.

Exploring the connection between quantum fields, horizons, and information.

A new program that simulates neutron interactions with NE213 liquid scintillator.

Investigating personalized amplitudes to enhance particle interaction models.

Discoveries in scattering amplitudes reveal deeper interactions between particles.

Study reveals how disks behave near walls in active nematic fluids.

Researchers examine how relativistic effects reshape our view of nuclear matter in extreme conditions.

A look into light scalar fields and their behavior in an expanding universe.

Exploring superradiance in systems of interacting spins.

Exploring the unique structure and reactions of halo nuclei, focusing on beryllium-11.

A look into the complex behavior of three interacting particles.

A look into IMSRG and its use of three-body operators in nuclear studies.

A fresh approach to studying particle connections in quantum mechanics.

Analyzing particle interactions in 5D warped gauge and gravity frameworks.

An overview of key ideas in quantum field theory made simple.

This article examines how particle interactions shape physical phenomena in various materials.

Scientists study gravitational amplitudes to link quantum mechanics and gravity.

Wilson lines connect particles in quantum theories, revealing interactions and structures.

This article explores spin statistics of solitons in Quantum Chromodynamics under strong fields.

Study reveals how nuclear medium affects pion production in high-energy collisions.

A look into subtraction schemes to manage singularities in particle physics.

An overview of elastic scattering and its role in understanding particle interactions.

Exploring the small energy variations in hydrogen due to quantum effects.

Study reveals how relativistic factors influence electron interactions and entanglement.

Examining the role of whistler waves in Earth's magnetosphere and electron behavior.

Research reveals insights into quark behavior under extreme conditions.

Kira introduces key enhancements for efficient Feynman integral calculations.

Methods to estimate potentials in neutron-proton scattering interactions.

An overview of two-body systems and their complex energy interactions.

A look into two important models and their thermodynamic properties.

This study examines how proton energy affects carbon nucleus interactions.

Examining the stability and energy states of neutral bosonic molecules.

Examining the interactions of quantum rotors within Bose-Einstein condensates.

Researchers propose a method to simplify loop integral calculations in particle physics.

Investigating the role of collisions in plasma instabilities and their implications.

Learn about Landau damping and its effects on plasma behavior and particle interactions.

This article explores the fascinating behaviors of colliding kinks in physical systems.

Research reveals insights into spin entanglement in two-proton emission from beryllium-8.

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