Latest Articles for Particle Physics

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.

New experiments aim to capture elusive neutrinos for deeper insights.

The Weak Gravity Conjecture proposes gravity is the weakest force in the universe.

A new method aids in understanding complex cosmic interactions.

Research sheds light on unique mass generation in fermions and gauge theories.

Researchers develop innovative methods to detect elusive high-energy neutrinos.

Scientists study quark-gluon plasma to learn about the early universe.

Researchers investigate elusive particles that may reveal new physics through neutrino interactions.

Recent studies aim to detect axion-like particles related to dark matter.

Research examines complex quantum states in lattice gauge theories using the Schwinger model.

An evaluation of KANs for tasks in high-energy physics.

This article discusses the interplay of M2 states and duality symmetry in Calabi-Yau manifolds.

This article explains Regge cuts and their significance in particle interactions.

Tetraquarks, unique four-quark particles, reveal insights into particle interactions.

New method uses AI to identify double hypernuclear events in nuclear emulsions.

Examining how Geminga pulsar affects particle flows to Earth.

Explore the role of kinks in quantum systems and their impact on entanglement.

Investigating particle jets reveals insights into quark-gluon plasma properties.

An overview of Higgs multiplets and their role in particle physics.

This study uses fuzzy spheres to examine high-energy states in conformal field theories.

A unified model enhances understanding of single pion production in neutrino experiments.

A novel method enhances muon conversion searches using synchrotron radiation.

Scientists reconstruct four-dimensional proton phase space using one-dimensional measurements.

Examining why matter dominates over antimatter through CP violation in baryons.

EIC aims to deepen knowledge of matter's fundamental structure through advanced experiments.

New methods improve our grasp of gluon distributions in particle physics.

Exploring the potential of muon colliders to study Majorana neutrinos.