Latest Articles for Particle Physics

Examining fluid behavior in high-energy nuclear physics through transport coefficients.

Exploring the unification of string theories through M-theory and its implications.

Study reveals insights into deuteron production during high-energy collisions.

Exploring the unique characteristics of atmosphere-skimming particle showers and their detection.

Examining the unique movements of active particles in confined spaces.

Exploring oscillons and their significance in various physical systems.

Examining fermions' behavior on curved lattice structures with domain walls.

An overview of tools aiding quantum system simulations.

This article discusses Dirac fermions and the impact of Lorentz symmetry violations.

Researchers study Higgs extensions to reveal new particles and interactions.

This study uses lattice QCD to explore kaon mixing beyond the standard model.

This theory offers new insights into gravity and its connections with other forces.

Examining the role of coloured spin-1 states in composite Higgs models and their implications.

Research examines rare interactions between top quarks and Higgs bosons.

This article examines the unexpected muon levels in cosmic ray air showers.

Researchers study particle collisions to identify six predicted -even states in charmonium.

Learn how high-energy neutrinos reveal secrets of the universe.

A study investigates potential signs of higgsinos using the ATLAS detector.

A simple guide to scalar celestial amplitudes and their significance in particle interactions.

This article examines how heavy-light mesons decay and their significance in particle physics.

Examining the role of symmetries in Multi-Higgs-Doublet Models.

Recent research sheds light on chiral symmetry breaking and its implications in particle physics.

This study examines how weak measurements influence phase transitions in quantum systems.

A new approach sheds light on chiral symmetry breaking in quark interactions.

New research refines the strong coupling constant using improved data analysis methods.

Research on muons in air showers reveals gaps in current models.

Researchers use GPUs to speed up quantum particle simulations effectively.

This article discusses techniques for extracting particle beams in accelerators.

A new model enhances the Dean-Kawasaki equation for better particle dynamics analysis.

Exploring the fascinating characteristics and significance of boson stars in physics.

Research shows exceptional points can significantly boost quantum sensor accuracy.

Examining behaviors of unitary QFTs in de Sitter space and the Euclidean two-sphere.

A look at sigma models and their role in understanding theoretical physics.

The SoLid experiment seeks to understand antineutrino behavior near a reactor in Belgium.

Investigating B-meson decays to find clues about fundamental physics.

Research into fractional-charge particles may change our view of fundamental forces.

Examining antinuclei can reveal clues about dark matter origins.

A concise overview of quantum entanglement and its significance in modern physics.

Recent findings shed light on a rare hadronic decay process and its implications.

Neutrinos provide insights into the properties of neutron stars and their cooling processes.