Latest Articles for Fundamental Forces

A look into Yukawa couplings and their significance in particle physics.

Exploring new physics through two Higgs doublet models in particle physics.

This article discusses anomalies and the role of right-handed neutrinos in particle physics.

Researchers investigate Higgs interactions using polarized cross sections in electron-positron colliders.

Researchers study gluon correlations to gain insights into particle interactions.

Muon colliders may reveal new particles and insights into dark matter.

A clear look at how quarks form bound states and their properties.

Unexpected events at 146 GeV suggest potential new particles.

Research reveals insights into fast-moving quarks within deuterium nuclei.

This article explores the intriguing properties of tetraquarks and their significance in particle physics.

This article discusses a model for understanding eta and eta prime mesons.

Recent experiments shed light on hyperon decays and their role in CP violation.

Research on quarks’ behavior in extreme conditions from heavy-ion collisions.

Explore the roles of fermions and bosons in the universe.

An exploration of gluon interactions and their implications within string theory.

This article explores the lifetimes of baryons with heavy quarks and their implications.

Researchers create theories that extend our understanding of particle interactions using twelve dimensions.

Scientists investigate axions to understand dark matter and fundamental physics.

The Higgs boson connects particle physics and cosmology, shaping our universe's structure.

Researchers study how particle ratios change in high-energy heavy-ion collisions.

Scientists investigate muons to uncover potential new particles and deepen physics knowledge.

Scientists study top quark production with light jets to advance particle physics.

Discovering exotic states formed by hadrons and their interactions.

Examining gauge theories and composite particles through recent lattice studies.

Researchers investigate hypothetical vector-like quarks using data from the LHC.

A new approach to fundamental particle interactions and dark matter.

Researchers examine lepton flavor violation processes to find clues of new physics.

Investigating lepton flavor violation could reveal unknown particles and forces.

Neutrinos could challenge our understanding of physics by testing CPT invariance.

Exploring the phenomenon of particle pair creation in strong electric fields.

Examining particle behavior and correlations from high-energy particle collisions.

Examining particle behavior to explain matter-antimatter imbalance.

Research sheds light on gluonic components within protons through quarkonium studies.

Researchers investigate decay processes to assess lepton flavor universality and its implications.

New models enhance understanding of particle collisions and interactions in physics.

Investigating the complex world of exotic hadrons and their properties.

Examining the relationship between neutrino masses and CP violation through the seesaw mechanism.

Research on neutrinos sheds light on fundamental questions about the universe.

Research delves into potential new particles and interactions at the frontier of particle physics.

New findings deepen our knowledge of matter and antimatter through particle decays.