Latest Articles for Fundamental Forces

Research on neutrinos reveals their unique properties and potential influence on fundamental physics.

CP violation in B decays reveals gaps in modern physics theories.

Recent studies shed light on Higgs boson connections to W and Z bosons.

Understanding how supernovae contribute to neutrino research and the mysteries of sterile neutrinos.

This article examines transverse polarization in hyperons during proton-proton collisions.

Investigating particle collisions under temperature and magnetic influences.

A look at how new symmetries could address Standard Model anomalies.

Research on axions could change our understanding of dark matter and fundamental forces.

Exploring how the three-gluon vertex affects interactions in quantum chromodynamics.

Explore the interactions of particles, focusing on QCD and tetraquarks.

A look into the challenges of measuring the strong coupling constant.

Scientists seek to determine the mass of neutrinos to advance particle physics.

New model connects dark matter to top quark decays through newly introduced particles.

Scientists study rare particle decays to explore fundamental forces in the universe.

Research reveals insights into strange quarks and their effects on nucleon properties.

Researchers analyze heavy resonances, setting strong limits for new physics.

Unraveling the connection between dark matter and matter-antimatter imbalance through right-handed neutrinos.

Research explores elastic scattering and the significance of Pomeron and Odderon at LHC.

A brief overview of Quantum Chromodynamics and its significance in particle physics.

Research sheds light on neutral gauge bosons and their implications in particle physics.

An overview of particle physics, its forces, and the search for new theories.

A look into neutrinos, their mixing patterns, and implications for our universe.

Discover the science behind wormholes and their implications for our universe.

A look at how quarks group and interact in different structures.

Examining how particle polarization reveals secrets of quark-gluon plasma.

Researchers study Higgs boson interactions with quarks through particle collisions.

This article explores quarkonium's role in understanding particle interactions and the strong force.

New experiments aim to study neutrinos and their properties.

Research focuses on charmonium production via photon and Odderon interactions.

Uncovering the elusive nature of dark matter and its potential candidates.

Study of how particles are produced during high-energy collisions and its implications.

This research evaluates single top quark and antiquark production rates from LHC data.

Electric dipole moments offer insights into fundamental particles and the universe's mysteries.

Research sheds light on particle interactions and fundamental forces at high energies.

Recent findings on charmonium states raise important questions in particle physics.

Research explores dijet production and non-eikonal corrections in high-energy particle collisions.

New findings shed light on kaon pair behavior during particle decay.

Examining neutron decay reveals insights into particle interactions and potential new physics.

Unraveling the mysteries of beta decay and its implications on physics.

Researchers analyze top quark and photon interactions for insights into particle physics.