Latest Articles for Particle Physics

Investigating particle behavior to uncover CP violation effects in the universe.

Researchers investigate rare particle interactions to uncover potential new physics.

Examining how magnetic fields developed in the early universe.

Explore the impact of the CPT theorem on our comprehension of the universe.

Researchers leverage new algorithms to enhance lattice gauge theory simulations.

Exploring quantum computing's role in understanding neutron-proton pairing in nuclear physics.

Research investigates heavy Higgs bosons through high-energy proton collisions.

Researchers study superheavy dark matter and right-handed neutrinos to explain cosmic mysteries.

Exploring pion condensation and its implications for unique astronomical objects.

A look into how researchers study excited states of nucleons to learn about fundamental forces.

This article examines the unique behaviors of fermionic gases and their pairing mechanisms.

Exploring axions as candidates for dark matter and their connection to inflation.

Research reveals magnetic fields significantly alter QCD's topological features across temperatures.

An overview of local fields in lattice QCD and their significance in particle physics.

PandaX-4T experiment searches for axion-like particles and dark photons.

Examining Inert Higgs Doublet Models and Two Higgs Doublet Models in particle physics.

Researching charm quarks and their roles in particle interactions at EIC facilities.

Researchers have developed scaling relations to better predict dark matter halo properties.

Examining the relationship between Dirac monopoles and Berry geometric phase in quantum systems.

A look into the interactions and states of binary Bose gases.

A concise overview of semileptonic decays and their significance in particle interactions.

Research on phase transitions in quantum materials using the Lee-Yang formalism.

A look into the structure and behavior of heavy mesons through distribution functions.

Researchers investigate lepton flavor violating decays in search of new physics beyond the standard model.

Exploring common misunderstandings about Quantum Chromodynamics and its measurement.

A look into neutrino scattering and its significance in nuclear physics and cosmic events.

Research on axions offers new insights into the rapid expansion of the universe.

A look into cosmic birefringence and its significance in astrophysics.

GRAND project focuses on detecting air showers from high-energy neutrinos using autonomous triggers.

Research explores the Higgs-Dilaton potential's role in gravitational waves during phase transitions.

An exploration of how measurement choices affect particle behavior.

Neutrinos play a crucial role in shaping our understanding of the universe.

Research examines how spacetime curvature affects axion-photon conversion signals in neutron stars.

This study reveals how pion scattering varies with the number of colors in QCD.

A new model links neutrino mass, baryon asymmetry, and cosmic inflation simply.

Scientists study unique singlet scalars and their interactions in particle physics.

Improving predictions in particle physics through automated QED corrections.

Unraveling the secrets behind dark matter's role in the universe.

A fresh perspective on how dark matter emerges from early universe conditions.

Discover how primordial black holes influence dark matter and baryon asymmetry.