Latest Articles for Particle Physics

Investigating the elusive nature of dark matter and its interactions with particles.

Examining GNNs for classifying particle collision events.

This article examines the link between f(R) gravity and neutrinos in shaping the universe.

Researchers study Higgs boson interactions with quarks through particle collisions.

Study reveals links between star formation and gamma-ray emissions in galaxies.

Investigating how dark matter formed in the early universe.

Research proposes a new model to explain lepton interactions and mass differences.

A look into how dark matter interacts within our Sun.

A closer look at the role of neutrinos in the universe's expansion and element formation.

New techniques enhance performance of flat and magnetized beams in particle accelerators.

Exploring a novel approach to the Schrödinger equation in quantum mechanics.

A look into resonance's role in controlling particle behavior.

Discover how spinor fields behave under specific boundary conditions in quantum field theory.

Investigating low-energy signals for dark matter discovery with solid-state detectors.

A new approach helps learn complex fermionic Hamiltonians with high precision.

Exploring how quantum measurements relate as questions about systems.

Scientists use quantum methods to enhance neutrino data analysis efficiency.

Study reveals how neutrino flavors affect core-collapse supernovae dynamics.

This article explores quarkonium's role in understanding particle interactions and the strong force.

Recent findings challenge current particle physics predictions and hint at new phenomena.

Investigating how magnetic fields influence quarks and pions in extreme conditions.

New experiments aim to study neutrinos and their properties.

Research focuses on charmonium production via photon and Odderon interactions.

This study investigates how mesons behave in dense nuclear environments.

Investigating hybrid mesons could reshape our knowledge of particle interactions.

This article explores how energy-level crossings impact particle behavior.

Exploring the role of heavy-flavor particles in high-energy collisions and angular correlations.

A detailed look into the QCD parameter and its significance in particle physics.

Exploring the effects of self-interacting dark matter on galaxy structures.

Research focuses on managing dark current in RF electron guns for improved performance.

A systematic approach to create multi-particle operators considering cubic symmetry.

Study reveals unique behavior of Ds(2317)+ and Ds(2317)− in dense environments.

Study reveals effects of dissipation on Majorana particles in nanowire-superconductor setups.

Uncovering the elusive nature of dark matter and its potential candidates.

Democratic string field theory offers insights into string interactions with multiple configurations.

Investigating rare neutrino events to unveil secrets about the universe.

Exploring temperature influences on quark behavior and sound properties in dense environments.

Examining the role of the Higgs field in cosmic inflation and universe formation.

ATLAS explores the potential existence of supersymmetry using advanced particle collision data.

Research links ultralight particles to the dynamics of binary black holes.