Latest Articles for Standard Model

This study uses lattice QCD to explore kaon mixing beyond the standard model.

A study investigates potential signs of higgsinos using the ATLAS detector.

Investigating B-meson decays to find clues about fundamental physics.

Research into fractional-charge particles may change our view of fundamental forces.

Researchers examine heavy particles, challenging current physics theories and revealing new possibilities.

Exploring new concepts in particle physics to address unanswered questions of the universe.

Examining the impact of temperature on particle interactions and gravity.

A look at particle physics concepts with a focus on mathematical connections.

A look at how the mirror twin Higgs model addresses key questions in physics.

Hyperon decays provide insights into particle interactions and potential new physics.

Researchers investigate Higgs boson pairs using vector-boson fusion.

b-CASTOR uses machine learning to find regions explaining particle physics anomalies.

Exploring how measurements influence disorder in quantum systems and their implications.

Scientists investigate lighter and heavier Higgs bosons, revealing potential new physics.

Exploring dark matter through a superconducting fluid model with potential candidates.

An overview of neutrino mass and its significance in particle physics.

Research on neutrinos may reveal why matter predominates over antimatter.

Exploring the wavefunction within the framework of quantum field theory.

Belle II experiment investigates elusive Dark Photons and their role in dark matter.

Research focuses on Higgs boson pair production and its implications for particle physics.

Research on rare neutrino tridents could reshape particle physics.

Exploring the implications and search for fractionally charged particles in particle physics.

Recent findings challenge established physics theories about muons and W bosons.

Researchers explore discrepancies in Higgs boson decay to uncover new physics.

A look into the smallest parts of matter and their interactions.

Investigating rare particle decays to uncover potential new physics beyond the Standard Model.

A look into the relationship between dark matter and neutrinos in the universe.

Exploring neutrinos' role in the matter-antimatter imbalance.

This article discusses new methods in chiral gauge theories focusing on the BMHV scheme.

Research explores axion-like particles produced during muon decay and their implications.

Research on muon's magnetic moment leads to new theoretical models.

Investigating unexpected decay patterns of the Higgs boson reveals potential new physics.

Reflecting on a physicist's profound impact from student days to a successful career.

Examining the dual view of the Standard Model and its implications.

CP violation helps explain the matter-antimatter imbalance in our universe.

This article discusses dark sectors and their connection to electric dipole moments.

Investigating top quark production reveals insights into fundamental particle interactions.

Exploring a new framework for dark matter and neutrino mass.

Investigating the Two-Higgs-Doublet Model and its implications in particle physics.

Scientists investigate vector-like top quarks to address fundamental mysteries of the universe.