Latest Articles for Particle Physics

ANTARES reveals new findings about cosmic neutrinos and their sources.

Using neural networks to identify chiral magnetic waves in particle physics.

Exploring non-BPS D-branes and their connection to global symmetries in string theory.

Scientists investigate quark mass differences using a new theoretical framework.

This study explores how rotation affects heavy vector mesons in quark-gluon plasma.

Fragmentation functions help explain hadron production in high-energy particle collisions.

Research on moment methods enhances understanding of particle behavior in gases.

Study reveals unique features of GRB 221009A and its high-energy emissions.

A look into inflation and reheating, shaping our understanding of the Universe's beginnings.

A new perspective on dark matter through axion relic pockets.

This article examines spin correlation and entanglement in top quark experiments.

Research on top quark polarization reveals insights into fundamental forces of nature.

A look into the nature of Hot QCD matter and its significance in physics.

New insights into bottom baryons enhance particle physics knowledge.

Researchers test quantum behaviors through neutral pseudoscalar mesons and new frameworks.

Research highlights interactions between particles and effects of strong gravity.

Investigating dark matter through the Inert Higgs Doublet Model and axions.

A study examines the link between neutrinos and AGNs using radio emissions.

Investigating new particles that may change our understanding of the universe.

Researchers investigate Higgs boson decays into Pseudoscalar particles, seeking new physics insights.

Investigating the potential existence of sterile neutrinos through IceCube DeepCore data.

Researchers explore discrepancies in Higgs boson decay to uncover new physics.

A look into di-hadron systems and their significant interactions.

Research reveals new data on deuteron-proton scattering and its fundamental interactions.

A new framework for understanding dark matter and cosmic tensions.

Scientists study dark photons to unlock secrets of dark matter and the universe.

Study reveals key findings on baryon magnetic properties using lattice QCD techniques.

Research into dark matter's effects on electrons could reveal its hidden nature.

Investigating rare decay process for insights into neutrinos and matter.

Investigating charged Higgs bosons and their role in our understanding of the Universe.

A look into how phase transitions create gravitational waves and their implications.

New experiments and proposals aim to deepen our knowledge of neutrinos and their behavior.

Exploring how black holes affect quantum decoherence and particle behavior.

Exploring the link between dark matter and hypothetical axions in the universe.

Exploring the role and mystery of neutrinos in our universe.

Neutrinos offer insights into fundamental forces and particle behavior in the universe.

Uncovering the role of neutrinos in the universe's structure and behavior.

Examining techniques and data to enhance particle physics understanding.

Researchers examine how new particles can stabilize the Higgs potential and support inflation.

A fresh approach suggests a link between right-handed neutrinos and dark matter.