Latest Articles for Particle Physics

New techniques aim to measure the neutron EDM with greater accuracy, exploring fundamental physics.

Research on top quarks reveals insights into quantum mechanics and particle behavior.

Examining how gravity and geometry influence the localization of fermions in higher dimensions.

Research on silicon carbide aims to improve particle detector performance under radiation.

A look into nucleons, their mass, spin, and the forces that hold them together.

A new framework enhances analysis of fundamental particles and forces.

Scientists study particle interactions in AdS space for insights into physics and cosmology.

Examining particle behavior through intensity interferometry in heavy-ion collisions.

Scientists explore ALPs using high-energy muons to understand dark matter and mysteries in physics.

Axions could change our view of fundamental forces and CP violation.

A look into string amplitudes and their role in theoretical physics.

Research reveals new mechanisms behind cosmic ray energy gain from supernova shock waves.

Scientists analyze single top quark production to test particle physics theories.

New plasma boosters are set to improve X-ray free-electron lasers significantly.

A study on Higgs boson interactions with charm quarks at the LHC.

Scientists aim to observe gravitational quantum states in hydrogen atoms.

Research advances our understanding of nucleon spin beyond simple quark models.

A look at how disentanglement affects quantum systems and phase transitions.

New techniques improve predictions in electron scattering by charged particles.

This study reveals how environment affects particle behavior in supernova remnants.

Investigating the dynamics and properties of quark-gluon plasma in particle collisions.

Research on gamma rays from the Sun reveals complex interactions with cosmic rays.

Examining the role of diffractive processes in particle physics.

This article explores the relationship between matrix quantum mechanics and tensor networks in physics.

Investigating how Yukawa couplings impact neutrino masses and lepton flavor violation.

Exploring how magnetic fields affect neutrino behavior and coherence.

Scientists study nucleons to learn about their internal composition and behavior.

A look into how graviton scattering reveals insights about gravity's quantum nature.

This study examines the equation of state for nuclear matter in heavy-ion collisions.

A look into baryons and their properties through spectroscopy techniques.

LAPPDs offer fast and precise photon detection for various scientific applications.

An overview of techniques and findings related to Higgs boson production.

The Nelson-Barr model offers insights into the strong CP problem and matter-antimatter asymmetry.

Learn how trigger systems filter and manage data in particle physics experiments.

A look into the properties and significance of triply heavy baryons.

Examining hybrid inflation and its role in the universe's early expansion.

Research reveals insights on proton behavior during high-energy collisions.

SNO+ helps scientists study solar neutrinos from the Sun's core.

An exploration of twist-3 GPDs and their role in proton structure.

A new method combines soft and hard particle interactions for deeper physics insights.