Latest Articles for Particle Physics

Anyons are unique particles with special properties that impact quantum computing.

This article reviews methods and uncertainties in hypernuclei separation energy calculations.

LHAASO detects high-energy photons, probing fundamental physics and Lorentz symmetry.

Challenging existing models, scientists explore dark matter's complex relationships.

Investigating a unique type of dark matter and its effects on cosmic structure.

Research focuses on measuring light behavior in LAB for neutrino experiments.

Efforts to improve neutrino interaction models highlight critical uncertainties and their implications.

Researching new theories to explain matter-antimatter imbalance through Higgs boson studies.

Research examines how mesons react in hot, magnetized environments.

New research reexamines neutron spin behavior in varying magnetic fields.

Investigating photon interactions with new detectors for deeper insights.

Scientists distinguish helium and electron recoils in liquid xenon for dark matter detection.

This study examines the role of odderon spin in elastic scattering processes.

Research focuses on new particles to deepen our understanding of the universe.

Researching electric currents from particle collisions in magnetic fields.

Learn how damping rings optimize particle collisions for advanced research.

A look into the search for SUSY particles using R-parity violation.

Scientists introduce X-SCAPE framework to study jets in small collisions.

A look into high-energy particle interactions and their implications.

LHCb studies beauty and charm quarks to explore new physics concepts.

A recent experiment refines limits on exotic particle interactions using NV-diamond magnetometer.

Examining photonuclear reactions reveals unique isomeric states in molybdenum.

Scientists develop a tool for examining low-energy X-rays from ion-electron interactions.

A look at puffy dark matter and its potential role in understanding cosmic structures.

This article explores the (1460) meson and its interactions within kaonic systems.

Research reveals new dimensions in particle interactions with exotic states.

Researchers analyze neutrinos to uncover secrets of dark matter in Earth’s core.

An overview of superstring theory and its implications for fundamental forces.

A look into atmospheric and prompt neutrinos and their significance in particle physics.

Exploring the impact of quantum computing on understanding particle physics through lattice QCD.

Research sheds light on how quantum effects manifest in gravity under extreme conditions.

Research reveals new evidence of triboson particles in high-energy collisions.

Investigating neutron-rich isotopes reveals new insights into heavy element formation.

This study explores elastic and inelastic scattering in quark-gluon plasma.

Investigating superradiance and its effects on ultralight particles near exotic compact objects.

LHC experiments aim to improve cosmic ray interaction models using proton-oxygen collisions.

A look into CFTs, their challenges, and the role of heavy-light correlators.

Discover how neutrinos shape the creation of elements in cosmic events.

Research into rare particle transitions may reshape our view of the universe.

Study improves measurement accuracy of neutrino properties by considering multinucleon interactions.