Latest Articles for Fundamental Forces

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

New experiments may clarify the behavior of the muon and its magnetic properties.

A look into how particle masses differ and what drives these variations.

Researching electric currents from particle collisions in magnetic fields.

This article examines gravity's influence through energy conditions and modified theories.

Research reveals new evidence of triboson particles in high-energy collisions.

Exploring the role of heavy fermions in particle physics and effective actions.

Research reveals important energy differences in atomic nuclei with advanced modeling techniques.

Study measures particle interactions across specific energy levels.

A fresh model addresses fermion masses and cosmic mysteries.

Research reveals exotic properties of double-gluon charmonium hybrid states in particle physics.

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

Scientists investigated magnetic monopoles using data from the Large Hadron Collider.

Recent findings on W boson mass challenge existing theories and explore new physics models.

This article looks into light spin-1 bosons and their significance in particle physics.

Investigating rare particle interactions at the Compact Linear Collider.

Research into electric dipole moments reveals new insights about the universe's structure.

Studying ultraperipheral collisions reveals the structure of protons and nuclei through photon interactions.

Scientists propose new theories to explain mysteries in particle physics and the universe.

Research on dark photons could explain magnetic anomalies in particle physics.

Recent studies suggest lepton behavior may not align with established physics models.

A proposed model explains how lighter particles gain mass through symmetry and quantum corrections.

Baryons and tetraquarks reveal insights about matter and fundamental forces.

The FASER experiment at LHC searches for dark photons linked to dark matter.

Explore the forces and particles shaping nucleon interactions within atomic nuclei.

Enhancing accuracy in particle decay simulations is essential for particle physics research.

Recent studies delve into the magnetic properties of the positive muon and its anomalies.

A breakdown of gluon scattering and its significance in particle interactions.

Research on X17 particle reveals exciting insights into nuclear physics.

Researchers study heavy neutrinos to understand their role in particle physics.

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

Research on higher mesons sheds light on particle interactions and the strong force.

Scientists delve into the intriguing world of six-quark particles called dibaryons.

This article examines the decay patterns of charmed baryons through weak interactions.

Scientists investigate anomalies and the potential existence of new particles.

Research delves into charmonium-like states and their binding properties.

Research on CP violation in neutrinos seeks to explain the universe's matter-antimatter imbalance.

Exploring the potential of dark photons and their interaction with light.

This model combines fundamental forces to explain particle masses and matter imbalance.

Researching complex models to examine particle behavior in higher dimensions.