Latest Articles for Higgs Bosons

A look into the Dirac equation and its implications for particle physics.

Researchers investigate CP violation in Higgs interactions using data from the International Linear Collider.

Exploring dark neutrinos and their potential impact on the universe.

This article discusses sterile neutrinos and their potential role in dark matter.

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

Researching new theories to explain matter-antimatter imbalance through Higgs boson studies.

Research focuses on new particles to deepen our understanding of the universe.

A look into W boson mass discrepancies and the NMSSM model.

Scientists use particle collisions to measure the Higgs boson mass accurately.

A look into new findings about Higgs bosons and dark matter.

Examining the significance of long-lived particles in particle physics using the MATHUSLA detector.

Researchers investigate the flavon to understand particle mass and physics mysteries.

Muon colliders could revolutionize our understanding of the Top Yukawa coupling and the Higgs boson.

This article discusses Higgs boson rare decay processes and their implications for particle physics.

ATLAS collaboration achieves remarkable accuracy in measuring the Higgs boson mass.

Research explores how colored scalars might influence Higgs boson production linked to dark matter.

Scientists investigate anomalies and the potential existence of new particles.

Researchers seek new sources of CP violation in Higgs boson interactions.

Scientists investigate dark matter's properties and its connection to the Higgs boson.

Exploring how axion-like particles influence Higgs boson decay processes.

This article examines a fresh approach to Higgs boson and top quark behavior.

Scientists study axion-like particles to explain matter's dominance over antimatter.

A machine learning method enhances the reconstruction of particle events in high-energy physics.

Research advances in Higgs boson production and its interactions with gluons.

A close look at heavy WIMPs and their role in dark matter research.

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

Research on dark matter and neutrino masses through scotogenic models offers new insights.

A closer look at the role of soft emissions in particle collisions.

Research indicates possible new Higgs bosons at 95 GeV and 650 GeV.

Research at CEPC aims to uncover insights into quantum entanglement through Higgs boson decay.

Study of Higgs production through particle collisions and jets reveals new insights.

Explore the links between gravity, particle interactions, and theoretical frameworks.

Examining the journey of particle physics and future research directions.

Exploring Higgs inflation and its impact on cosmic understanding through particle interactions.

Exploring a model for lepton-flavored dark matter interactions via the Higgs boson.

Scientists investigate dark neutrinos using the International Linear Collider.

Researchers investigate flavour-changing neutral currents in proton collisions at the LHC.

New methods improve speed and accuracy of particle collision simulations.

This study confirms the equivalence of Warsaw and SILH bases in particle interactions.

An overview of top quark pair production and its implications in particle physics.