Latest Articles for Fundamental Forces

A look into eight-dimensional gauge theory and its implications in particle physics.

Exploring the complexities of charge-parity conservation in particle physics.

Researchers investigate Higgs boson pairs using vector-boson fusion.

Exploring how the eGM model sheds light on Higgs boson interactions.

Research into right-handed neutrinos and vector-like leptons could reshape particle physics.

Examining how the Higgs boson decays into pairs of leptons.

This article discusses the Drell-Yan process and its two-loop mixed corrections.

Research reveals how vector mesons behave under strong magnetic influences.

This article explores the electroweak phase transition and its impact on quarks and matter formation.

Exploring how new particles affect the Drell-Yan process in particle physics.

Researching strange hadrons to improve understanding of particle collisions and interactions.

This article examines kaon decays and their role in particle physics.

A look at mesons, diquarks, and their importance in understanding particle interactions.

Examining how fundamental constants may change with cosmic expansion.

Examining baryons' properties and their role in atomic structure.

Axions and their strings could explain crucial phenomena in particle physics.

This study examines the momentum contributions of quarks and gluons in pions and kaons.

ILC aims to uncover the mystery of baryon violation and its impact on our universe.

Researchers explore baryon decays to study symmetries in particle physics.

A look into the fascinating world of neutrinos and their significance in physics.

Researchers study Indium-115 decay to learn about weak interactions and neutrinos.

Researchers refine measurement of branching fraction in charmonium decay processes using BESIII data.

Researchers refine models to improve understanding of dimuon production from neutrino-nucleus collisions.

A study of how different quark flavors impact transverse momentum distributions.

Researchers seek to identify interactions of dark matter and fundamental particle decay.

Research reveals key details about exotic hadrons and their interactions.

Researching vector bosons as potential dark matter candidates through gauge symmetries.

Research explores connections between top quark, Higgs boson, and CP violation.

Examining particle collisions reveals key information about hadrons and internal structure of protons.

A new collider aims to study the Higgs boson and fundamental particles.

A deep dive into the role of heavy quarks in hadron formation.

New insights on Higgs boson pairs enhance understanding of particle masses.

Exploring parity violation effects through cesium's unique atomic properties.

An overview of how B mesons explain the matter-antimatter imbalance in the universe.

Research on neutrinos may reveal why matter predominates over antimatter.

Researchers investigate charmonium interactions at BEPCII collider, revealing limits and future directions.

New insights into baryon resonances reveal their complex interactions beyond quark models.

A look into flavor symmetries and quark-lepton unification in mass differences.

The EIC aims to provide insights into the partonic structure of protons.

Study examines how pseudoscalar mesons affect proton dynamics through generalized parton distributions.