Physics - High Energy Physics - Phenomenology

Exploring the formation and implications of global monopoles in the two-Higgs-doublet model.

Investigating whether the Higgs boson is a fundamental or composite particle.

A detailed look into how neutrinos gain mass through advanced particle physics models.

A look at the relationship of duality and stress tensor deformations in physics.

CMS experiment reveals potential signal indicating a new boson at 95.4 GeV.

Explores how inflation and supersymmetry shape our universe's early expansion.

Research on all-charm tetraquarks reveals mysteries of fundamental particles.

This article discusses key issues in the Standard Model and proposes a new theoretical framework.

Researchers study surprising behaviors in small particle systems during heavy ion collisions.

Exploring nuclear matter and the role of the parity-doublet model in extreme conditions.

Investigating ultralight bosonic particles and their effects on black holes.

Exploring the complex interactions of nucleons within atomic nuclei.

Examining how phase transitions in the universe create gravitational waves.

Researchers unveil a method to study baryon mixing and symmetry breaking accurately.

This study examines shear viscosity in hot, dense fermionic matter under rotation.

Investigating sterile neutrinos' roles in low-energy supernovae and their cosmic implications.

A novel method improves matching decay products to parent particles in physics.

Exploring SuperWIMPs and their significance in understanding dark matter.

New models explore stability of the weak scale in high energy physics.

Research sheds light on scalar meson decays and their implications in particle physics.

This article explores the interactions between various types of cosmic strings.

This article explores B mesons and their decay processes through various experimental findings.

Research aims to improve muon predictions in air showers by refining simulation models.

Research highlights damped oscillations in K-mesons and their interactions.

DUNE experiment investigates elusive long-lived particles to advance particle physics.

TRISTAN aims to shed light on neutrino mass mysteries through advanced collider technology.

A study on particle behavior in high-energy nuclear physics.

A look at the development and impact of quark theory in particle physics.

A new model improves particle jet tagging accuracy using advanced graph techniques.

New insights into pion photoproduction enhance understanding of nucleon interactions.

Researchers study the behavior of quark-gluon plasma in extreme conditions.

Scientists study how gravity may differ across cosmic regions.

Exploring the impact of quantum computing on simulating particle interactions in QCD.

Research on mesons helps reveal fundamental forces through semileptonic decays.

Research sheds light on gluon mass generation and its implications for particle physics.

Investigating muon-electron scattering for better understanding of the muon's magnetic moment.

Advancements in QED calculations enhance the accuracy of particle physics experiments.

A new method improves dataset transformation using normalizing flows.

Researchers investigate light vector bosons to better understand particle physics and the universe.

A look at how hydrodynamics studies fluid behavior and stability under various conditions.