Latest Articles for Particle Physics

Research into wakefields generated by particles in carbon nanotubes could advance particle acceleration technology.

A new method streamlines complex integral calculations in particle interactions.

Discover how machine learning enhances anomaly detection in particle physics research.

Explore the formation and evolution of the early universe and its fundamental particles.

Research reveals new findings on particle decay and its implications for physics.

A look into the processes and factors influencing particle decays in charmonium.

Research reveals key differences in particle behavior from the Sun.

Recent analysis casts doubt on antiproton excess as dark matter evidence.

This article discusses inflation's effect on the universe's formation and structure.

Exploring the role of symmetries and anomalies in quantum field theories.

Examining how fermions complicate qubit systems in quantum computing.

A look at how spin-3/2 hadrons are studied through SIDIS experiments.

Jets in heavy-ion collisions provide insights into Quark-Gluon Plasma.

A look into the mass and behavior of neutrinos in particle physics.

Workshop highlights on challenges and research directions in high-energy heavy-ion physics.

A look at how recurrence time affects quantum systems and their behavior.

Explore the significance of kilonovae and their impact on heavy element formation.

Exploring the Klein-Gordon equation within Bianchi I spacetime reveals vital connections in physics.

Discover the role of tachyons in cosmic inflation and early universe dynamics.

Analyzing neutrinos can reveal much about supernova explosions and the universe.

A look into cosmic rays and the research conducted at the Pierre Auger Observatory.

Examining the vital role of neutrinos in supernova explosions.

This article examines the rare production of four top quarks in particle collisions.

Examining how heavy quarks lose energy in quark-gluon plasma during high-energy collisions.

A new resource aids researchers in comparing Monte Carlo models with experimental data.

Research reveals key connections in blazars' emissions using infrared data.

A look into non-Hermitian quantum systems and their implications.

This article examines how energy levels affect particle dynamics in heavy ion collisions.

Scientists analyze particle decay to seek signs of new physics.

Investigating the link between cosmic rays and gamma-ray bursts.

Examining how defects affect magnetic properties in two-dimensional materials.

Exploring the effects of gravitational waves on Yang-Mills condensates and quark behavior.

Exploring SIMPs' interactions and their potential role in dark matter.

Exploring the implications of the Two-Higgs Doublet Model in particle physics.

This framework links neutrino masses with the universe's matter-antimatter imbalance.

Scientists probe discrete symmetries using positronium to explain matter-antimatter imbalance.

Examining cosmic rays through underground muon detectors for deeper insights.

A look into GPDs and their significance in hadron structure.

Insight into complex four gluon processes through advanced simulations and analysis.

Volunteers contribute to neutrino research through the Name that Neutrino project.