Latest Articles for Particle Physics

Exploring rare muon decays may reveal unknown particle interactions.

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

Research aims to find massive particles interacting with light at LHC.

A look at how nonlinear sigma models explain inflationary dynamics in the early universe.

Researching Higgs and radion production sheds light on particle physics challenges.

Understanding tetraquarks can change our view on fundamental forces in nature.

Scientists investigate scalar leptoquarks to answer fundamental questions in physics.

Exploring total cross section's role in high-energy proton collisions and future research.

Recent findings shed light on the mass of the lightest neutrino and its significance.

A clear look at effective potential and the role of conformal symmetry in quantum systems.

Researchers achieve improved accuracy in parton distribution functions for high-energy physics.

Examining critical points in heavy-ion collisions through the Ising model.

Exploring the complexities of heterotic T-folds and their implications in string theory.

Researchers explore Majorana bound states for new quantum computing possibilities.

Scientists investigate recent findings on exotic particles and their decay behaviors.

Recent studies improve heavy flavor corrections in deep inelastic scattering for better predictions.

Examining energy patterns of neutrinos and photons reveals potential dark matter signals.

Exploring how new physics may affect CP violation in quark behavior.

Learn how bosenovae reveal secrets about dark matter and its role in the universe.

A look into the fascinating world of Floquet insulators and their behavior.

Analyzing Higgs boson production via heavy quark interactions in particle collisions.

Exploring the significance of low-frequency gravitons in the early universe.

A look at the phases and dynamics in the Gross-Neveu model.

Exploring the significance of core-collapse supernovae and the diffuse supernova neutrino background.

Explore the SYK model’s implications for quantum gravity and particle interactions.

New insights into scalar mesons enhance our understanding of particle interactions.

This article examines the relationship between Dyck paths and Fibonacci anyons in quantum computing.

Exploring how white dwarfs become neutron stars through complex processes.

Recent findings suggest new sources of gravitational waves linked to supercooled phase transitions.

Recent findings link gravitational waves to dark matter and axion particles.

Advancements in RF fields enhance particle retention for fusion energy.

Research focuses on heavy neutral leptons and lepton number violation at muon colliders.

Belle II enhances studies on B mesons and seeks new physics insights.

Using approximate entropy to assess particle motion stability in accelerators.

Study reveals connections between high-energy neutrinos and gamma rays in our galaxy.

Researchers detail methods for constructing initial data of binary boson stars.

Exploring the links between particles and their quantum behavior.

Exploring superselection rules and their impact on quantum error correction methods.

Researchers uncover hints of new scalar particles that could explain mass and dark matter.

Exploring nucleosynthesis and hypernuclei formation through high-energy collisions.