Latest Articles for Particle Physics

Research aims to detect axions and magnetic monopoles using high voltage capacitors.

Researchers study liquid leaf targets to improve ion acceleration with lasers.

A look into the methods used for identifying jet charges in particle collisions.

Investigating sterile neutrinos' role in understanding dark matter interactions.

Exploring the unique properties of neutrinos and their interaction with gravity.

A look into the role of spin in fluid dynamics, especially in extreme conditions.

Research investigates charm production in high-multiplicity proton collisions at the LHC.

Study reveals insights into matter-antimatter imbalance through particle behavior.

Research reveals one of the lightest known neutron stars, challenging existing models of dense matter.

A look into how hypersphere models reveal nucleon structures and interactions.

The aCORN study refines measurements on neutron decay and the weak force.

Scientists improve calculations of proton parton distributions using a novel gauge method.

A look at dark matter's origins and the roles of WIMPs and FIMPs.

Investigating the effects of chiral anomalies in complex particle systems.

Exploring the significance of VHE emissions in understanding gamma-ray bursts.

Investigating strange baryons and their role in nuclear collisions.

A look into boson interactions with bottom quarks at the LHC.

This article explores pion decay's role in identifying potential new particles.

Scientists search for SUSY particles at the Large Hadron Collider.

Exploring the interaction between cosmic rays and magnetic fields in space.

Exploring multi-Higgs-doublet models' role in CP violation and particle interactions.

Exploring how input parameters shape our understanding of particle interactions.

Analyzing supernova 2023ixf for insights on jets and neutrinos.

Neutrinos change flavors as they travel, revealing secrets of the universe.

CUPID-0 experiment measures double beta decay properties to enhance knowledge of neutrinos.

A fresh look at inflation models reveals links to dark matter and cosmic mysteries.

This article explores how high-energy photons interact in ultra-peripheral collisions of lead nuclei.

Scientists study doubly heavy baryons to learn about fundamental forces and particle interactions.

Research links axion dark matter to unique behaviors in quantum Hall systems.

Studying xenon's EDM could shed light on matter-antimatter asymmetry.

This study focuses on calculating PDFs to understand nucleon structure.

Exploring how neutron stars cool and the role of new neutrino emission mechanisms.

Investigating dark photons could reveal secrets about dark matter and our universe.

Researching cosmic neutrinos through indirect detection techniques via the cosmic microwave background.

Researchers calculate two-loop integrals, improving predictions in particle interactions.

Examining the significance of scalar particles in particle physics and the GeV excess phenomenon.

Exploring neutrino behavior and dark matter interactions to uncover cosmic mysteries.

Tidal Disruption Events reveal links between stars, black holes, and high-energy particles.

Exploring rare muon decays may reveal unknown particle interactions.

A look at how baryons are classified and modeled in particle physics.