Latest Articles for Particle Physics

This paper examines the crucial role of gauge fixing in quark measurements.

This study explores how particles form during the universe's inflation phase.

A study of how different quark flavors impact transverse momentum distributions.

Examining how monopoles and center-vortices explain confinement in particle physics.

Exploring the connections between charged black holes and dark bubble models.

Examining muon interactions to refine particle physics measurements.

The ATLAS Google Project examines cloud resources for data analysis in particle physics.

A lightweight algorithm enhances simulation accuracy for radiation damage in silicon detectors.

This article examines a two-dimensional CFT interacting with an oscillating electromagnetic field.

This article explores the formation of Borromean states in three-particle systems.

Exploring the interactions and implications of scalar fields in vacuum energy.

Examining the impact of synchrotron radiation polarization on understanding magnetic fields.

Exploring dark matter through its interactions with companion particles and gamma-ray emissions.

Researchers seek to identify interactions of dark matter and fundamental particle decay.

A specialized machine learning model improves particle data analysis efficiency and accuracy.

Research reveals key details about exotic hadrons and their interactions.

Research reveals crucial insights into gamma ray production from neutron-oxygen interactions.

Investigating heavy neutrinos for their potential role in dark matter.

A new method combines human feedback and machine learning for effective data quality monitoring.

Improving velocity measures enhances particle behavior simulations in various scientific fields.

A theoretical model explores quark-antiquark behavior under magnetic fields.

Researching vector bosons as potential dark matter candidates through gauge symmetries.

A study on vortex configurations and particle dynamics in the Abelian Higgs model.

Scientists develop simulations to minimize noise in rare decay detection experiments.

This article examines how disclinations affect quantum particle behavior in various fields.

A fresh approach to analyze particle collisions for new physics insights.

Research explores connections between top quark, Higgs boson, and CP violation.

Exploring the connection between cosmic rays and the central black hole of our galaxy.

Neutrinos are key particles that help explain the universe's mysteries.

Neutrino astronomy reveals secrets of the universe through elusive particles.

Investigating the elusive nature of dark matter and its impact on the universe.

Examining particle collisions reveals key information about hadrons and internal structure of protons.

Investigating Higgs boson properties offers insights into fundamental physics questions.

An overview of dark matter theories, focusing on the Froggatt-Nielsen Singlet Model.

Examining the intriguing role of magnetic monopoles in particle physics.

The SBC-LAr10 project enhances detection techniques using liquid argon and xenon.

Examining how cosmological phase transitions relate to gravitational waves in the early universe.

A look into the GM model and its scalar singlet relating to dark matter.

A new method for monitoring power supplies enhances reliability and reduces downtime.

This article reviews meson decays into charged kaons using the QCD factorization model.