Latest Articles for Particle Physics

An overview of efforts to unify fundamental forces in physics.

NANOGrav reports on potential gravitational wave background linked to early universe events.

Exploring the potential of HNLs in understanding neutrinos and the universe.

HERA and EIC efforts enhance understanding of strong coupling in particle physics.

New physics models emerge from pulsar timing arrays and gravitational waves.

Researchers analyze gamma rays and neutrinos to understand cosmic rays better.

Research on particle production from strong electromagnetic fields using lasers.

New findings in the 1D Hubbard model reveal unique particle interactions and phase transitions.

Satellite observations reveal new insights on particles from the calm Sun.

A look at how evolution kernels impact our understanding of protons and their inner workings.

This study reveals insights into sound wave behavior in Fermi gases.

New insights into dark matter and the electroweak phase transition emerge from the cxSM.

Physicists use machine learning to analyze collision data for potential new particles.

Research sheds light on tetraquarks and their properties linked to hadronic molecules.

Exploring the composite inflation theory and its role in the early universe.

Examining the impact of mixing angles on particle interaction models.

Research reveals potential of non-local theories in quantum electrodynamics.

Researchers aim to measure muon EDMs to uncover mysteries of the universe.

Researchers improve axion search experiments with innovative circuit designs.

A new approach enhances the detection and understanding of neutrinos in particle physics.

A look into antimatter, dark matter, and their connection to the universe.

Examining how heavy neutral leptons influence particle behavior and lepton flavor universality.

New insights from LIGO data on gravitational waves and theoretical physics models.

A look into the behavior of particles in Fermi liquids.

Exploring the uneven particle intensity in solar particle events.

NA64 experiment seeks evidence of light dark matter via high-energy electron beams.

Researchers uncover new patterns and sources of cosmic rays through advanced observations.

Scientists study hadron interactions to learn about matter's structure and fundamental forces.

A look into the study of a-anomalies in quantum field theories.

A look into the significance of soft gluons in Quantum Chromodynamics.

Introducing models that include spin-1 particles in dark matter research.

Scientists investigate the potential existence of the X17 particle and its implications.

Research explores the interaction of spin-polarized particles and intense laser fields.

A deep dive into cosmic rays and their secondary particles.

Research into Majorana states offers new potential in quantum computing technology.

MicroBooNE experiment measures radon decay rates in liquid argon, ensuring reliable results for future studies.

Research on the split majoron model offers new insights into gravitational waves and cosmological issues.

Investigating triangle singularity provides insights into unique particle interactions and behaviors.

A look into gauge theories, their transitions, and particle interactions.

This research explores how complex models may explain baryon asymmetry in the Universe.