Latest Articles for Particle Physics

Study reveals how observing free fermions influences their quantum dynamics.

Researchers are enhancing methods to detect dark matter particles using innovative systems.

This study examines how low-energy constants in QCD change with different colors.

Research sheds light on high-energy neutrinos and their role in cosmic events.

This project applies deep learning techniques to better analyze gamma ray data.

Research sheds light on dark matter particles and their effects on neutron lifetimes.

Research sheds light on the production and decay of pentaquark particles.

Research dives into dark matter interactions around supermassive black holes.

Hyper-Kamiokande seeks to answer key questions about the universe through neutrino study.

Study reveals intriguing revival behaviors of relativistic fermions in confined spaces.

New methods enhance accuracy and efficiency in simulating Bose-Einstein condensates.

This article explores the significance of studying three and four top quarks.

New methods enhance precision in particle physics calculations and address challenges.

CATHODE offers a fresh approach to finding new particles in collider experiments.

Recent research reveals new measurements of pion form factor and implications for muons.

Exploring the impacts of disorder on the Thouless pump and Floquet states.

Researchers investigate flavour-changing neutral currents in proton collisions at the LHC.

A look into baryon asymmetry and its connection to dark matter and leptogenesis.

Recent Belle II results suggest unexpected particle decay rates, prompting scientists to rethink existing theories.

A look into cosmic strings and their effects on space and radiation.

An analysis of ParticleNet and LCFIPlus for jet flavor identification at CEPC.

Enhancing haloscope performance through volume expansion and innovative designs.

New methods improve speed and accuracy of particle collision simulations.

Insights into quark-gluon plasma dynamics through particle flow analysis.

Researchers study neutron density fluctuations in heavy-ion collisions to understand matter's fundamental nature.

ATLAS experiment improves precision of the strong-coupling constant in particle physics.

Investigating how electron capture decay influences measurements of cosmic rays.

New findings challenge existing views on gamma-ray bursts and their VHE emissions.

A look at the origins and behavior of cosmic rays in our universe.

This article examines Ricci flat manifolds and their role in particle physics.

Lamarr improves particle collision simulations, enabling LHCb to handle larger data volumes efficiently.

Exploring quark-hadron transitions and their implications for astrophysics.

A study on arrival-time distributions in quantum mechanics through Bohmian mechanics.

Yemilab aims to advance neutrino studies with advanced detection technology.

Research reveals complex behaviors in particle collisions, enhancing our understanding of matter.

Examining the arrival patterns of cosmic rays through various gravitational models.

Studying strange quark matter sheds light on extreme conditions in compact stars.

Researchers study Majorana zero modes for advanced quantum computing applications.

A recent weight shift in the W boson challenges existing particle physics models.

This article discusses new findings on tetraquarks and their significance in particle physics.