Latest Articles for Particle Physics

This study explores hadron interactions and their significance in extreme environments.

Examining how boundaries affect the chiral magnetic effect in confined geometries.

Upcoming experiments will enhance helium-4 beam polarization insights in particle physics.

Study on primordial black holes and axion miniclusters reveals important clustering dynamics.

A look into the Belle II experiment's focus on particle physics.

Muon colliders offer high-energy insights into particle interactions and the muon-Higgs coupling.

Belle II seeks answers to the rare occurrence of antimatter in our universe.

New methods enhance precision in high-energy particle detection.

A look into chameleon branes and their significance in modern physics.

Skyrmions in antiferromagnetic materials show distinct behaviors, opening new research avenues.

Introducing FMNLO, a new method for accurate jet fragmentation calculations.

Research is shifting focus toward lighter dark matter and complex gravity interactions.

This article explores scattering amplitudes and their implications in particle physics.

A novel detector improves measurements of electron emissions from beta decay processes.

An overview of string-net models and their implications in theoretical physics.

Research explores heavy neutrinos' role in the universe's matter-antimatter imbalance.

Examining the role and impact of noninvertible symmetries in particle physics.

An overview of how inflation, baryogenesis, and leptogenesis shape our understanding of the early Universe.

Research reveals the role of QED in proton spin contributions from partons.

Investigating gluon behavior through deep inelastic scattering and saturation models.

An exploration of Skyrme crystals and their role in nuclear matter.

This study explores cosmic birefringence and its connection to gravitational lensing effects.

This study reveals how particle decays can hint at new physics.

A look into winos and their role in dark matter detection.

This study highlights the role of ML in understanding Higgs boson decay patterns.

Study reveals key patterns in strange hadron production from heavy-ion collisions.

New method speeds up beam tuning in accelerators using machine learning.

Research reveals how nuclear structure affects outcomes in heavy-ion collisions.

Research offers fresh perspectives on the QCD axion and its implications.

sPHENIX aims to study Quark-Gluon Plasma through jets and heavy flavors at RHIC.

Exploring a theory that addresses neutrino mass and dark matter.

The EIC at Brookhaven aims to deepen our knowledge of matter's fundamental structure.

A look at particle behavior, temperature effects, and energy states.

Explore the role of axions in solving the strong CP problem in physics.

Examining how heavy quarks transform into hadrons during particle collisions.

A look into the unique properties and production of doubly heavy baryons in particle physics.

Researchers investigate paired bosons in a square lattice to reveal exotic states of matter.

Researchers use machine learning to identify hidden signals in particle physics data.

This study investigates Majorana neutrinos using data from high-energy particle collisions.

A new project that aims to generate high-energy photons for scientific research.