Latest Articles for Fundamental Forces

A study of gauge theories focusing on particle interactions and behavior.

This research delves into pion polarizabilities and their significance in particle physics.

This article discusses recent findings on CP violation in muon decays.

Investigating top quark production reveals insights into fundamental particle interactions.

Research on neutrino oscillation and Lorentz invariance violation sheds light on fundamental physics.

An overview of cluster formation and freeze-out in nuclear physics.

Research explores how entanglement entropy reveals proton behavior in high-energy collisions.

Research advances our understanding of neutrinos and their role in the universe.

This research delves into gluon interactions in high-energy collisions.

Learn about the processes and significance of Higgs boson production at colliders.

Research links nuclear matrix elements to phase shifts in neutrinoless double-beta decay.

Study of charmed baryons reveals key insights into particle interactions.

Investigating the Odderon and its role in high-energy particle interactions.

Examining how gravity influences particle behavior in non-Abelian gauge theory.

Neutrinos hold secrets about the universe's structure and fundamental forces.

Research on Heavy Neutral Leptons may reveal new insights into particle interactions.

Study reveals key aspects of nucleon properties using advanced matrix element techniques.

Scientists study charmed mesons to gain insights into the charm quark's properties.

A closer look at tetraquarks and their significance in particle physics.

This research sheds light on semileptonic decays and charm quarks using BESIII data.

This article reviews parity violation effects in cesium, focusing on nuclear interactions.

Neutrino oscillation reveals complex particle behavior affecting physics and cosmology.

Research on leptons raises questions about known physics and potential new discoveries.

A scientific effort to detect a rare particle decay process.

New experiments shed light on particle decays and interactions.

This research investigates a rare particle decay, aiming to advance our knowledge of fundamental forces.

Exploring the Higgs mass and its implications for stability and new physics.

BESIII data offers new insights into charm quarks and decay behaviors.

Research into scalar unparticles using muon colliders offers new insights into particle interactions.

A novel perspective on resolving the strong CP problem using massless quarks.

Studying kaon decays could reveal new phenomena in particle physics.

Exploring how neutrinos might acquire mass through axions in higher dimensions.

Investigating tau neutrinos and their interactions to reveal fundamental physics.

The EIC aims to deepen our knowledge of matter's fundamental particles.

Examining the interplay of forces in particle physics through kinetic mixing.

Researchers investigate axion-like particles to address mysteries in physics and dark matter.

A look into pair production of Higgs bosons and associated particle interactions.

Researching lepton content in protons through high-energy collisions.

This article explores the significance and implications of neutral triple gauge couplings.

Delving into the strong CP problem and its possible solutions in particle physics.