Latest Articles for Standard Model

Research explores Higgs boson interactions and potential flavor violations in particle physics.

An analysis of semi-visible jets and dark matter interactions at the Large Hadron Collider.

A look at an alternative model for particle mass generation without the Higgs boson.

Examining Higgs boson production with vector bosons and its implications for particle physics.

Scientists investigate leptoquarks to explain unexpected particle decay results.

Research focuses on heavy neutrinos and their effects on particle behavior.

Recent findings enhance our knowledge of top quarks and their interactions.

Investigation into the theoretical decay of protons and its implications for physics.

Neutron decay reveals crucial insights into particle interactions and fundamental forces.

Future experiments aim to explore particles beyond the Standard Model.

A closer look at the muon and its magnetic properties.

An overview of particle physics, focusing on the Standard Model and key challenges.

Recent discoveries challenge current theories in particle physics.

A concise overview of fundamental particles and forces in the universe.

Research expands charge assignments in FN models to address the flavor problem.

Examining particle physics anomalies that could suggest new forces or interactions.

Researchers aim to understand neutrinos through left-right symmetry at future colliders.

A fresh look at inflation models reveals links to dark matter and cosmic mysteries.

Recent research aims to find squarks and gluinos to explore new physics.

An overview of efforts to unify fundamental forces in physics.

Research on heavy neutrinos may reveal answers to cosmic mysteries.

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

Research reveals discrepancies in baryonic decays, hinting at new physics.

Research sets new limits on right-handed neutrinos using meson decay data.

Recent anomalies in b quark decays may signal new physics beyond the Standard Model.

Anomalies in particle behavior challenge existing theories in particle physics.

Scientists investigate anomalies in particle behavior, seeking new physics theories.

Scientists investigate elusive particles to deepen our understanding of the universe.

Research on the Higgs boson reveals insights into mass and particle interactions.

Study of diboson production reveals insights into fundamental interactions and potential new physics.

Upcoming DIS experiments aim to enhance our knowledge of fundamental forces.

Researchers utilize machine learning to enhance anomaly detection in particle physics.

Scientists investigate high-energy neutrinos and leptoquarks to explore new physics.

Recent findings on tau lepton properties challenge existing theories in particle physics.

Research on right-handed neutrinos could illuminate dark matter mysteries and the muon anomaly.

New methods improve the study of lepton magnetic moments at high energy collisions.

Scientists investigate heavy Higgs bosons through proton-proton collisions at the LHC.

A look into spinors and their significance in modern physics.

CP violation sheds light on the matter-antimatter imbalance in the universe.

Research investigates vector-like quarks and their role in particle physics.