Latest Articles for Particle Physics

NEON experiment investigates axion-like particles, revealing new constraints on their existence.

Examining statistical noise's impact on neutrino mass estimates in modern cosmology.

Exploring quark interactions and phase transitions in a simplified particle physics model.

Scientists develop a mathematical framework for explaining fermions and their interactions.

Exploring the intricate world of baryons and their properties.

Research uncovers complex viscosity dynamics in quark-gluon plasma.

Exploring the properties and importance of pions in understanding fundamental forces.

Researchers investigate unexpected events in low-energy experiments for new physics insights.

Examining fractional instantons and their effects on confinement in gauge theories.

Research reveals key mechanisms behind lepton pairs in heavy-ion collisions.

Exploring the unique conditions that lead to primordial black hole formation.

Exploring the chiral separation effect and its implications in high-energy physics.

Research on the Migdal effect using advanced detection techniques.

A look into SBND's efforts to detect and study neutrinos.

Researchers set new limits on high-energy photon detection at the Pierre Auger Observatory.

A look into the formation and characteristics of twin neutron stars.

Recent findings reveal the presence and significance of quantum magic in top quark experiments.

New findings shed light on meson resonances and their interactions.

Exploring the relational nature of quantum individuals alters our view of particle behavior.

Examining dark matter through dwarf spheroidal galaxies and LHAASO observatory data.

Investigating exotic hadrons and the impact of isospin on their behavior.

Learn about cosmic rays and their impact on our understanding of the universe.

A new algorithm enhances the identification of quark types in high-energy physics.

Investigating the interplay of nucleon energy and particle fragmentation for deeper insights.

Innovative experiment at LHC aims to find low-mass, long-lived particles.

Exploring axions and their role in the mysteries of particle physics.

Exploring the interplay of charged pion condensation and color superconductivity in quark matter.

Researchers are uncovering complex interactions in quark systems with strange quarks.

New telescopes and cameras enhance detection of elusive high-energy neutrinos.

Examining the decay processes of the B_c meson reveals key information about particle interactions.

Examining the characteristics and challenges of hybrid baryons in particle physics.

Examining the vital role of neutrinos in supernova dynamics and flavor conversion.

A look at axions and their potential impact on dark matter understanding.

Exploring the unique properties of the fractional quantum Hall effect and its implications.

Researchers use NN-CDFs to study neutrino sources more effectively.

Exploring how bulk viscosity affects neutron star mergers and their implications.

An examination of how interactions affect the energy-momentum tensor in particle physics.

Researchers study particle collisions to reveal complex nuclear interactions.

Exploring the relationship between shock waves in particle and gravitational physics.

Research explores the role of ultralight bosons in dark matter via black hole data.