Latest Articles for Particle Physics

A study investigates the potential existence of dark photons at the Large Hadron Collider.

Investigating critical points in QCD under extreme conditions using high-precision numerical methods.

Investigating unexpected decay patterns of the Higgs boson reveals potential new physics.

Examining how solenoid lenses affect electron beam performance in XFELs.

Quantum algorithms improve jet clustering, aiding particle physics research and data analysis.

A study of how Dirac and Klein-Gordon fields interact over time.

A look into the decay processes of heavy baryons, focusing on two-pion emissions.

Research on heavy mesons produced from light nuclei interactions sheds light on gluons.

Study reveals insights into CP violation through sneutrino decay processes.

PICOSEC detectors improve timing in particle physics experiments with precision under challenging conditions.

Examining how neutrinos scatter off thallium isotopes reveals insights into their properties.

Scientists study scalar fields as potential sources for dark energy in the universe.

A look into a rare nuclear decay process and its significance.

Scattering of light by particles reshapes our view of the cosmic background radiation.

Exploring weak measurements in quantum mechanics through the double-slit experiment.

Recent findings reveal complex behavior in particle decay processes.

Study reveals links between dark matter, phase transitions, and gravitational waves.

Scientists seek evidence of a charged Higgs boson using data from particle collisions.

Research on hypernuclei reveals new insights into nuclear stability.

A look at jet quenching and its relevance in quark-gluon plasma studies.

Research into how light and theoretical particles may reveal dark matter insights.

Study reveals how magnetic reconnection boosts particle energy in galaxy clusters.

An overview of Kutasov-Schwimmer dualities in quantum field theories across dimensions.

Recent insights into neutrinos could reshape our understanding of dark energy.

Investigating how neutrinos interact with matter through various experiments.

Research investigates potential links between LEP and LHC data on a 95 GeV particle.

Simulations reveal how particles gain energy during magnetic reconnection, affecting solar flare dynamics.

Recent study sheds light on Higgs boson interactions with top quarks.

Exploring fresh insights into quantum entanglement and phase transitions.

Research measures Higgs boson production rates in collisions involving top quarks.

PandaX-4T aims to detect solar B neutrinos and explore dark matter.

A study of jet structures formed from heavy particle decays.

Discover how pile-up collisions contribute to particle physics studies at the LHC.

Researchers investigate charged Higgs bosons using data from proton-proton collisions.

POLAR-2 enhances gamma-ray burst detection through optimized materials and design.

Research on the Collins-Soper kernel and TMDs improves our understanding of quark behavior.

Nuclear PDFs are crucial for understanding quarks and gluons in atomic nuclei.

Pulsar halos reveal insights into high-energy particles and cosmic phenomena.

Research refines model connections in nuclear collisions for better predictions.

Researchers measure the Higgs boson's total width to uncover potential new physics.