Latest Articles for Particle Physics

A deep dive into the links between particle interactions and gravitational forces.

New tools enhance understanding of neutrinos through electron scattering simulations.

Understanding chiral symmetry and its role in particle mass through advanced experiments.

Discover the vibrant interactions of quarks and gluons through color charge.

Discover how CEBs detect faint cosmic signals with remarkable precision.

A deep dive into the complexities of strongly coupled gauge theories and their conformal window.

Heavy ion collisions reveal secrets of hypernuclei and cosmic phenomena.

A deep dive into the complexities of flavor physics and the CKM matrix.

Explore the unique behaviors of particles and their implications for physics.

A look into how particles interact through Quantum Chromodynamics.

Scientists use advanced detectors to find signs of dark matter.

Exploring the behavior of matter through the chiral phase transition in quantum chromodynamics.

Learn how running couplings affect particle interactions at different energy levels.

Scientists pursue axions to understand dark matter and cosmic phenomena.

Researchers investigate Composite Higgs Models and their predicted spin-1 resonances.

Explore the complexities of particle interactions and decay processes in physics.

Dive into the study of jets and their role in understanding the universe.

Scientists investigate an elusive decay for insights into particle physics and neutrinos.

Discover how non-local interactions change our understanding of the universe.

Diquarks play a key role in understanding quark interactions and exotic particles.

A deep dive into the significance of NLO solutions in particle physics.

Scientists study proton behavior in high-energy xenon and cesium collisions.

Discover how neutrinos reveal the secrets of dark matter in the universe.

A deep dive into flavor physics and the HVM model.

Exploring unexpected particle production in unique spacetime settings.

Discover how shocks and turbulence accelerate particles in space and affect cosmic events.

Exploring the Higgs boson and its impact on particles and the universe.

Scientists uncover surprising decay behavior in a rare aluminum isotope.

Scientists are investigating axion-like particles and sterile neutrinos in the universe.

Scientists develop JetRetNet, a promising approach for better b-jet tagging.

Scientists investigate slow-moving particles and point sources to protect our environment.

Discover the secrets behind two vital theories shaping our understanding of the universe.

Discover how charged particles generate light in innovative materials and setups.

Neutrinos reveal secrets of cosmic explosions and demand advanced detection methods.

Scientists aim to decode dark matter through vector portals and future colliders.

Uncovering the potential secrets of axion-like particles and their significance in physics.

Neural networks are changing how we study particle scattering amplitudes in physics.

Explore the fascinating world of fermions and their entangled states.

Researchers strive to detect elusive boosted dark matter using the ICARUS detector.

Uncover the mysteries of the universe through celestial holography and quantum entanglement.