Latest Articles for Particle Physics

Investigating how elliptic flow reveals properties of Quark-Gluon Plasma.

3D pixel sensors enhance performance in radiation-rich environments of the LHC.

Research sheds light on a particle's decay properties and potential molecular state.

Exploring neutrinos' role in the matter-antimatter imbalance.

Research into neutrinoless double beta decay could reveal secrets about neutrinos.

Discover the fascinating world of tetraquarks and their unique properties.

This article discusses new methods in chiral gauge theories focusing on the BMHV scheme.

Researchers explore potential violations of CPT symmetry using charm mesons.

Research sheds light on gauge theories and their link to supersymmetry, enhancing understanding of fundamental forces.

Research on top quark polarization offers insights into fundamental particle interactions.

Research explores nitrogen vacancy centers in diamonds for axion detection.

Recent machine learning techniques improve tracking in high-energy physics experiments.

New insights challenge traditional views on quarkonia and QGP formation.

Research reveals how spectators influence particle distribution in heavy-ion collisions.

This study reveals FR0 galaxies' significant role in cosmic ray energy density.

Examining weak interactions through electron and positron collisions with protons.

New methods improve identification and analysis of tau leptons in particle physics.

A fresh approach to dark matter introduces new particles and coexisting properties.

Scientists observe neutrinos, improving understanding of particle physics and proton structure.

New research explores proton-boron fusion using boron hydrides for clean energy.

Exploring the effects of antiproton annihilation in different materials.

Exploring the link between tachyons and the Higgs field in particle physics.

Exploring how modular family symmetry impacts our understanding of particle properties.

Explore how Lorentz boosts affect quantum coherence in various particles.

Researchers examine the role of parafermions in integrable quantum field theories.

Research on Clevios' fluorescence in TPC applications reveals minimal background noise.

Fermilab enhances its neutrino research capabilities through advanced technology and upgrades.

Research explores axion-like particles produced during muon decay and their implications.

Using quantum autoencoders to identify new physics signals at the LHC.

Scientists investigate the puzzling mass of neutrinos and its implications for the universe.

Exploring bosonic dark matter's influence on galaxy structure and dynamics.

Study reveals how heat treatments improve niobium SRF cavities' performance.

Examining how quantum coherence behaves near black holes.

Study reveals how heavy flavor impacts particle fragmentation in collisions.

Scientists investigate light bosons, setting limits on their existence through high-energy collisions.

Exploring the role of Kaluza-Klein gravitons in light element formation.

A study focusing on handling infrared divergences in high-energy particle interactions.

Exploring the significance of radiative symmetry breaking in dark matter and gravitational waves.

Examining the decay processes of charmed baryons reveals essential aspects of fundamental forces.

This study investigates generative neural networks for enhancing particle physics simulations.