Latest Articles for Particle Physics

Scientists investigate muons to unravel magnetic moment discrepancies.

Exciting developments in particle physics await with Run 5 and the FCC.

A look into how single-boson exchange simplifies particle interactions.

Discover how researchers handle negative weights in particle experiments using cell resampling.

A deep dive into electron and muon behavior in quantum electrodynamics.

Scientists study charm quarks to uncover the mysteries of particle interactions.

A fresh approach to studying neutrinos and their interactions with nuclei.

Discover how machine learning aids in identifying particles in collider collisions.

Scientists study heavy flavours and quarkonia to learn about particle interactions.

Exploring the unique properties and significance of pentaquarks in particle physics.

Tetraquarks challenge our ideas of particle physics with their unique structures.

Explore the fascinating world of mesons and their decays in particle physics.

Exploring how quantum technology is reshaping high energy physics research.

A look at how electrons interact with different static potentials.

OpenMC proves effective for atomic transport calculations in nuclear fusion.

Study reveals crucial details about particle behavior and fundamental physics laws.

Understanding how particles interact with Earth's magnetic field enhances space weather predictions.

Explore how transition metals interact with fast-moving particles and the role of d-electrons.

A look at quark interactions and the role of automatic differentiation.

Researchers uncover the role of chaos in quarks and closed strings.

Exploring the role of muons in understanding quantum entanglement and its implications.

An overview of how dipole amplitudes explain particle interactions.

Discover how temperature affects particle movement in colloids.

This study presents a new method for calculating energy levels using the Dirac equation.

Neutrinos provide insights into Earth's interior layers and structure.

An overview of superconducting circuits and their implications for quantum computing.

Dive into the quest for axions and their role in dark matter.

Scientists are investigating dark matter and neutrinos using new models.

Discover how quantum friction affects tiny particles and surfaces in unique ways.

JLab is set to improve particle physics with innovative RWELL detectors.

Exploring the Inert Doublet Model and its potential in dark matter research.

Explore the unique interactions of fermions when observed and their surprising dynamics.

Explore how cosmological correlators provide clues about the universe's early moments.

Supernovae provide a unique opportunity to study the elusive neutrinos and their masses.

A look into the complex search for SUSY and its implications.

Explore the impact of domain walls on our understanding of the universe.

Highlights from the 16th Applied Antineutrino Physics Workshop in York, UK.

A look into Yang-Mills theory and the impact of light fermions.

Discover how thermal entropy influences antiferromagnetism in ultracold fermions.

A look into how particles gain mass and related mysteries.