Latest Articles for Particle Interactions

Examining how chirality shapes particle interactions and influences theoretical models.

COHERENT experiment sheds light on neutrino interactions and nuclear properties.

This study analyzes particle number fluctuations during liquid to gas phase changes.

Exploring the role of Dixon-Rosenfeld lines in understanding particle interactions.

Research highlights the precision of quantum sensors with trapped ions and squeezed states.

A look into gauge theories, topological charge, and their implications in physics.

This study analyzes photon interactions under off-shell conditions using worldline formalism.

A deep dive into the behavior of coupled one-dimensional Bose gases.

Exploring isolated resonances and their implications in many-body particle interactions.

A new infrared light-guide system improves target positioning in nuclear physics.

A look into how heavy quarks produce fewer particles during collisions.

Examining the impact of large charges on string dynamics and correlators.

A look into gauge theories and their complex interactions with scalar fields.

Examining knockout reactions reveals insights into atomic nucleus behavior.

A look at density matrices and their role in quantum physics.

A look into non-planar corrections in superconformal gauge theories and their implications.

A method to simplify the study of interacting electron gases with spin.

Examining how threshold effects influence gauge boson behavior at the LHC.

A look into the complexities of nuclear fission processes and interactions.

Exploring the interplay of hypercubes and SYK models in quantum physics.

Scientists investigate interactions between muons and lighter dark matter particles.

A look into nuclear reactions involving Lithium-6 and its interactions with other particles.

Explore new findings on how particles form stable states in nuclear physics.

Research enhances understanding of nuclear interactions using statistical techniques.

ANCs help us understand nuclear reactions in stars and element formation.

An overview of Feynman integrals' significance in particle physics.

New techniques improve accuracy in nuclear property calculations using Green's function Monte Carlo method.

Researchers find a new symmetry using Hamiltonian methods in gauge theories.

Research enhances understanding of beta decay and isospin-symmetry breaking.

A fresh approach simplifies calculations of electron-photon interactions and their properties.

Research into collisions reveals insights about nuclear matter under extreme conditions.

Quantum computing is transforming the study of many-nucleon systems in nuclear physics.

Research reveals how spinless fermions behave under varying interactions.

Exploring the link between scattering amplitudes and geometric structures.

This paper links inflationary cosmology with high-energy physics through supersymmetry models.

This study examines how ultrastable gases behave under weak interactions.

This article explores the complex interactions of Q-lumps during scattering events.

Examining how supersymmetry may explain the nature of dark matter.

Exploring how rotation affects the properties of hadron gas in high-energy collisions.

A look into the interactions of the hypertriton and their significance in nuclear physics.