Latest Articles for Fundamental Forces

Researching axion-like particles may provide new insights into particle physics.

Exploring the role and properties of neutrinos in our universe.

The ILC aims to deepen our knowledge of fundamental forces through high-energy particle collisions.

Recent experiments advance our understanding of charm and beauty particles in flavour physics.

Examining the role of CP-odd Higgs couplings in electron EDM measurements.

Investigating how electrons interact with nucleons reveals insights about quarks and gluons.

A look at scalar mesons and kaon-induced reactions in particle physics.

A look into the methods used for identifying jet charges in particle collisions.

Study reveals insights into matter-antimatter imbalance through particle behavior.

The aCORN study refines measurements on neutron decay and the weak force.

A look into boson interactions with bottom quarks at the LHC.

Exploring how input parameters shape our understanding of particle interactions.

Scientists study doubly heavy baryons to learn about fundamental forces and particle interactions.

Studying xenon's EDM could shed light on matter-antimatter asymmetry.

Examining the significance of scalar particles in particle physics and the GeV excess phenomenon.

Researching Higgs and radion production sheds light on particle physics challenges.

Understanding tetraquarks can change our view on fundamental forces in nature.

Scientists investigate scalar leptoquarks to answer fundamental questions in physics.

Recent findings shed light on the mass of the lightest neutrino and its significance.

Exploring the complexities of heterotic T-folds and their implications in string theory.

This article examines the role of jets and 1-jettiness in particle physics.

An overview of light mesons and their significance in studying the strong force.

Research explores gauge boson interactions to reveal potential new physics.

This article explores how particle masses relate through theoretical models.

HERA and EIC efforts enhance understanding of strong coupling in particle physics.

New insights into dark matter and the electroweak phase transition emerge from the cxSM.

Research on heavy neutrinos may reveal answers to cosmic mysteries.

Research sheds light on tetraquarks and their properties linked to hadronic molecules.

Researchers aim to measure muon EDMs to uncover mysteries of the universe.

A new approach enhances the detection and understanding of neutrinos in particle physics.

Examining how heavy neutral leptons influence particle behavior and lepton flavor universality.

NA64 experiment seeks evidence of light dark matter via high-energy electron beams.

Scientists study hadron interactions to learn about matter's structure and fundamental forces.

Research on pions reveals insights into atomic nucleus interactions and particle properties.

Researching particle decay to test existing theories and seek new physics.

Research reveals discrepancies in baryonic decays, hinting at new physics.

New methods improve understanding of particle collisions and parton interactions.

Exploring the significance of u-duality and brane theory in theoretical physics.

Neutrinos provide crucial insights into the universe and fundamental forces.

Researchers explore new methods to measure neutrino masses and their implications.