Latest Articles for Particle Physics

This study explores nucleon-pion interactions using advanced lattice QCD techniques.

Investigating how disorder and coupling affect particle behavior in quantum mechanics.

New insights into thermal conductivity in quark-gluon plasma and its impact.

Discover the unique properties and behaviors of neutrinos in particle physics.

New Few-Degree Calorimeter aims to improve gluon studies at the EIC.

Learn how researchers simulate quantum circuits with the help of special gates.

GRANDProto300 aims to enhance our grasp of ultra-high-energy cosmic rays.

Examining how moduli fields affect particle masses in theoretical physics.

Exploring different models that describe alpha particle scattering interactions and their implications.

Exploring the link between boson sampling and chaos in quantum physics.

This study examines quark matter's shear viscosity influenced by strong magnetic fields.

A study revealing complex behaviors in SUSY-QCD vacuum states and phase transitions.

Discover the unique properties and stability of charged boson stars.

Researchers develop a novel approach to estimate neutrino properties using red giants.

This study introduces Quantum GravitoElectromagnetic Dynamics, aiming to connect gravity and quantum mechanics.

Investigating the possible existence and impact of sterile neutrinos in particle physics.

Researchers study the charmed hypertriton to uncover particle interactions.

Exploring fermionic behavior in the Fulling-Rindler vacuum reveals unique insights.

Researchers are tackling neutron noise in experiments to study rare particle behavior.

This study measures cross sections of particle interactions at various energies.

Research reveals interactions between neutrinos and mesons in particle physics.

This article examines tau lepton polarization during deep inelastic scattering with nuclear targets.

Research on baryon number fluctuations helps reveal nuclear matter's critical transitions.

New methods improve data analysis efficiency for LHC scientists.

Neutrinos are tiny particles that challenge our understanding of the universe.

Exploring the implications of massive gravitons on gravitational interactions and cosmic structures.

New experiments reveal important details about leptoquarks through neutrino interactions.

Researchers analyze Higgs boson decay patterns to unveil particle physics insights.

Exploring the role of FIPs in cosmic events like supernovae.

Scientists study elusive particles produced during supernova explosions to learn about the universe.

This article highlights using generative models to create particle physics images.

Study reveals critical findings about particle interactions and resonances using lattice QCD.

Exploring the study of quarks through holographic QCD and its implications for physics.

A study of magnetic fields and cosmic rays in the Monogem region.

Learn how solar energetic particles impact space weather and technology.

Scientists investigate dark matter's subtle links to electron behavior through hadronic processes.

Examining quantum entanglement within dipole-deformed SYM theory and its implications.

Researching how particles fall through turbulent air impacts climate and air quality predictions.

GRAND aims to detect ultra-high-energy cosmic particles through a global network.

Exploring how particles behave in high-energy collisions using propagators.