Latest Articles for High-energy Physics

A look into cosmic explosions and the role of neutrinos in stellar evolution.

Scientists aim to find new heavy bosons using the ATLAS detector at the LHC.

Exploring potential solutions to the mass issue of the Higgs boson.

A fresh method for choosing renormalization schemes in beyond Standard Model theories.

This study investigates signs of Higgs and Z bosons using advanced detection techniques.

Physicists examine particle interactions under extreme conditions in quest for knowledge.

Researchers study how quarks form mesons using fragmentation functions to improve models.

Examining partons and their role in high-energy hadron collisions and entropy.

Recent models improve understanding of neutron stars and black holes through gravitational wave analysis.

A look at fluid behavior under non-uniform conditions in high-energy physics.

Scientists study the changing brightness of AGN using advanced simulations and telescopes.

Exploring scalar mesons' behavior in extreme environments reveals crucial interactions among fundamental particles.

Examining cLFV processes at China's Super-Charm Facility could reveal new physics.

CERN's AWAKE experiment explores new methods for accelerating particles using plasma technology.

An exploration of gluon interactions and their implications within string theory.

Scientists investigate additional Higgs bosons to deepen knowledge of particle physics.

Researchers study how particle ratios change in high-energy heavy-ion collisions.

Exploring the relationship between quarks, gluons, and protons through high-energy physics.

Scientists investigate muons to uncover potential new particles and deepen physics knowledge.

Recent findings on S3 1227+25 reveal significant gamma-ray activity and emission patterns.

This study reveals insights into the internal structure of spin-3/2 particles.

Scientists observe unprecedented gas outflows in a globular cluster X-ray binary.

An overview of high-energy particle interactions and their significance in cosmology.

Researchers investigate hypothetical vector-like quarks using data from the LHC.

Exploring the potential roles of dark matter in cosmic ray production.

Studying electron-proton collisions reveals key information about fundamental particles.

This study measures isovector charges in baryons using lattice QCD techniques.

Researchers improve techniques to analyze data for discovering new particles.

Scientists study quantum entanglement and Bell inequalities using high-energy collisions at the LHC.

Scientists study proton behavior in heavy-ion collisions to find the critical point.

Investigating the redshift and emissions of the BL Lacertae object VER J0521+211.

Researchers investigate muon neutrinos and antineutrinos in groundbreaking experiments.

This article explores how temperature affects diquarks and their interactions in particle physics.

Study of four-fermion models reveals insights into particle interactions and stability.

Researchers seek to uncover gamma-ray signals linked to mysterious fast radio bursts.

A significant experiment explores muon neutrinos using data from proton collisions.

Recent findings in B meson decays hint at possible new physics.

Examining rapid divergence and instability in quantum states.

Recent findings challenge previous models of particle dynamics in neutron stars.

Belle II seeks answers to the rare occurrence of antimatter in our universe.