Latest Articles for Particle Physics

An examination of the fascinating Domain-Wall Skyrmion phase in Quantum Chromodynamics.

Researchers establish tighter limits on rare kaon decay events after extensive analysis.

XENONnT aims to uncover the secrets of dark matter using advanced detection techniques.

Examining nucleon decay offers insights into fundamental physics and the matter-antimatter imbalance.

Studying glasma behavior in heavy-ion collisions reveals critical insights into matter's evolution.

A look at how intruders affect granular materials and their movement.

Research sheds light on anyon behavior in fractional quantum Hall states.

A proposed theory offers fresh perspectives on particle interactions and flavor puzzles.

Research sheds light on particle interactions in extreme conditions of heavy-ion collisions.

Space charge effects play a critical role in electron behavior in advanced light sources.

DUNE aims to deepen our knowledge of neutrinos and their intriguing properties.

An overview of Grand Unified Theories and their implications in particle physics.

Exploring the link between primordial black holes and high-energy neutrino production.

Discover how pentaquarks challenge our understanding of particle physics.

A look into three-body decays and their significance in understanding particle interactions.

An overview of scalar mesons and their importance in particle physics.

Scientists propose a unique method to study dark matter interactions using different-sized test bodies.

Exploring how light interacts with axions around naked singularities.

Research on polarized photon beams enhances the study of light interactions.

RFSoC shows promise for Belle II upgrades after magnetic field testing.

Study reveals how varying shapes affect particle packing in one-dimensional space.

Exploring the issues related to CP violation in the real 2HDM.

Recent results from neutrino experiments NO A and T2K show notable discrepancies.

This study investigates axions and their impact on the cosmic microwave background.

A look into neutral meson mixing and its implications for new physics.

Discover the latest methods and challenges in neutrino production experiments.

Recent models enhance our understanding of neutrino mass and behavior.

Research reveals interactions between charm and strange dibaryons through lattice QCD methods.

NA64 experiment at CERN seeks clues about Dark Matter's hidden interactions.

Exploring how Higgs inflation shapes the early universe and particle production.

Neutrinos have mass, raising questions and opening new avenues for research.

Researchers combine trapped ions and neutral atoms to enhance quantum computing methods.

A look into the behavior of particles and probability bounds in quantum systems.

Researchers use machine learning to uncover insights about axions and flavor symmetry.

Research sheds light on the stability of exotic tetraquarks and their binding energies.

Researching the coexistence of dark matter types offers new insights into cosmic structures.

This article discusses dark photons and their production in proton collisions.

Exploring the weak decays of heavy mesons into baryon pairs.

Scientists aim to detect true muonium, a rare particle formed from muons and antimuons.

Examining the interaction of particles and gravity around cosmological black holes.