Latest Articles for Particle Physics

Researchers analyze lepton-nucleus scattering to deepen insights into nuclear interactions.

Explore the fascinating world of cosmic rays and their mysterious sources.

Research reveals connections between non-stabilizerness and entanglement in quantum systems.

This study examines rare decays of axial-vector mesons in particle physics.

Neutrinos are key to understanding explosive cosmic phenomena like supernovae and neutron star mergers.

A deep look into the electromagnetic properties of baryons and their complex structures.

Researchers assess CALI detector prototype for precision energy measurements at the Electron-Ion Collider.

This study examines the formation of primordial black holes from the Higgs potential.

Researchers are advancing detection techniques to study dark matter interactions.

Doubly charmed baryons are key to understanding strong interactions in particle physics.

New measurements challenge the Standard Model, hinting at unknown physics.

Research reveals more about cosmic rays and their origins.

This article explores Higgs boson studies and gauge-Higgs unification in particle physics.

Machine learning enhances sampling in lattice quantum chromodynamics for better predictions.

A closer look at dark matter, primordial black holes, and gravitational waves.

Learn how the RLS algorithm enhances superconducting cavity performance in scientific experiments.

This article examines baryon behavior and correlations in high-energy particle collisions.

Exploring the significance and complexities of top quark decay in fundamental physics.

New findings reveal the role of magnetic fields in cosmic ray acceleration from SN 1006.

Axions may be key to solving dark matter and strong CP problems.

Updated hadron lists improve particle physics research and heavy-ion collision models.

Research reveals how heavy quarks differ in particle production from lighter quarks.

A look into the role of phase transitions in the universe's evolution.

Using machine learning to classify jets in particle collisions.

Learn how to enhance mixing processes in advanced lattice structures.

Researchers study a rare particle's lineshape using high-energy collision data.

A new method streamlines the study of multiple fermion flavors in particle physics.

Investigating how mass is distributed in helium nuclei.

Exploring the role of hyperons in neutron star dynamics and their interactions.

Gluons play a vital role in understanding atomic nuclei.

Scientists investigate unexpected results from the MiniBooNE experiment, exploring potential new particles.

Upcoming experiments will enhance knowledge of protons and neutrons through neutrino interactions.

Examining the unique properties and behaviors of neutron star matter.

Belle II results suggest potential new physics beyond current theories.

Investigating the counterintuitive phenomenon of quantum backflow in particle behavior.

Research highlights unusual hadron states and their interactions in particle physics.

New POWHEG generator enhances deep inelastic scattering simulations for particle physics research.

HIBEAM-NNBAR experiment investigates matter-antimatter imbalance through neutron behavior.

Exploring helicity's role in particle movement and its potential technological applications.

Analyzing the effects of polarized neutrons and weak nuclear interactions.