Latest Articles for Particle Physics

Scientists investigate muons to challenge existing physics concepts and discover new insights.

Scientists investigate B meson decays to uncover hidden particles and mysteries.

Exploring the relationship between supergravity and modular symmetries in theoretical physics.

Exploring the significance of heavy flavor production and charmonia in particle collisions.

Scientists study particle interactions to understand CP violation and matter-antimatter imbalance.

Discover how radio antennas detect cosmic rays and neutrinos in scientific studies.

An overview of the Higgs boson and its relationship with bottom quarks.

An overview of the Higgs field and its role in particle physics.

Exploring the top quark's role in particle physics and its impact on fundamental interactions.

Examining charm quarks helps reveal the nature of matter in heavy-ion collisions.

Exploring the significance of right-handed neutrinos in understanding the cosmos.

This theory proposes vector particles as a key to understanding dark matter.

Scientists study sterile neutrinos to uncover their role in cosmic mysteries.

Exploring the fascinating behaviors of spin-1 BECs and skyrmions.

Researchers enhance particle tracking using modern computer techniques for better accuracy.

Scientists use molecular ions to shed light on quantum computing.

A look into heavy mesons and the concept of light-cone distribution amplitude.

Researchers find ways to better measure entangled quantum particles through filtering techniques.

Exploring helicity amplitudes and their role in particle interactions within massless Quantum Electrodynamics.

Explore the role of CP violation in particle physics.

CERN's ATLAS experiment enhances particle tracking with new pixel detectors.

This article explores how quantum annealing aids in understanding nuclear structures.

Scientists aim to identify particles accurately from high-speed collisions.

Scientists investigate the mystery behind muons produced from cosmic rays.

Examining how quantum corrections improve models of particle masses and interactions.

Explore dark matter and its significance in our universe.

Exploring the role and potential interactions of axions in physics.

Researchers propose a new method for defining instantons in lattice Yang-Mills theory.

Examining the challenges and advancements in Grand Unified Theories.

An overview of how partons transform into hadrons in heavy nuclei environments.

A look into how solar energetic particles are detected and their significance.

Research reveals patterns in cosmic-ray electrons, enhancing our knowledge of the universe.

Scientists chase clues to uncover dark matter's true nature and effects.

Exploring R-parity violating SUSY and the role of neutrinos in our universe.

A look into the Kitaev model and the behavior of particles in complex states.

Exploring the connections between dark matter and charge-parity violation in physics.

BSkG4 enhances our grasp of nucleons and their role in the cosmos.

Exploring the link between Berry curvature and color superconductivity in quark matter.

Scientists embark on a journey to find the elusive X17 particle.

A look at how CWebGen aids in particle physics research.