Latest Articles for Particle Physics

Researchers propose new gauge symmetries to tackle unanswered questions in particle physics.

Research reveals complex low-energy states in fermionic Hamiltonians, challenging current quantum theories.

GRB 221009A challenges existing physics with unexpected high-energy photon observations.

Investigating braneworld models with positive tension to address fundamental physics questions.

Recent findings on tau lepton properties challenge existing theories in particle physics.

Research reveals new insights into tetraquarks formed from heavy and light quarks.

This article explores particle motion in nonharmonic potentials and the role of decoherence.

A look into the unique state of matter formed in extreme conditions.

Recent research sheds light on the complex behavior of fission fragment spins.

A look into duality defects and their impact on quantum field theories.

Investigating the unique emissions from primordial black holes for deeper cosmic insights.

HEFT sheds light on particle interactions and the Higgs boson's significance.

Exploring Lorentz symmetry breaking through the bumblebee-Stueckelberg framework.

New findings on quark interactions expand our understanding of particle physics.

Analyzing meson decay to muon pairs for deeper physics understanding.

This study analyzes quark distributions in pions using the chiral quark model.

Exploring the connections between dualities and gauge theories in theoretical physics.

CUPID-Mo experiment provides precise measurements of Molybdenum-100 decay.

Research on right-handed neutrinos could illuminate dark matter mysteries and the muon anomaly.

This article presents a particle model consistent with BMS symmetries in physics.

A look into the role of scalar fields in the formation of dark matter.

New methods improve the study of lepton magnetic moments at high energy collisions.

Examining the chiral anomaly and its role in generating magnetic fields in high-energy environments.

Scientists search for signs of quantum black holes in high-energy collisions.

Examining the QCD axion's interactions with particles and implications for dark matter.

ATLAS detector investigates potential heavy particles beyond the Standard Model.

This study links unresolved gamma-ray background with galaxy distributions to uncover dark matter properties.

A fresh look at dark matter candidates and their relation to the Standard Model.

Scientists investigate heavy Higgs bosons through proton-proton collisions at the LHC.

Research sheds light on nucleon interactions at short distances using CLAS12 experiments.

Exploring the interplay between fermionic modes and self-gravitating non-Abelian monopoles.

Exploring the nuances of quantum sensing and its applications in particle detection.

LHCb research sheds light on particle interactions and matter structure.

Research into neutrinos could reveal important insights into particle physics and our universe.

Researchers examine pixelated spacetime to address key questions in quantum gravity.

Examining single particle production at forward rapidities in high-energy collisions.

New insights on antineutrino interactions with hydrogen enhance our understanding of particle physics.

Research on exotic atoms reveals new aspects of particle interactions.

WHIZARD enhances particle physics research through efficient event simulations.

Examining how the ILC will enhance our understanding of particle interactions.