Latest Articles for Fundamental Forces

Exploring the significance of EDMs in charm baryons and their connection to CP violation.

Researching how parity violation affects proton structure and fundamental physics.

A look at BRST symmetry in Galilean and Carrollian Yang-Mills theories.

Investigating neutrino types using gravitational waves reveals deeper insights into particle physics.

This research explores the unique properties of P-wave bottom baryons and their internal structures.

Future experiments aim to explore particles beyond the Standard Model.

Researchers aim to find charged Higgs bosons to enhance particle physics understanding.

A closer look at the muon and its magnetic properties.

Research on light scalar mesons continues to uncover their complex nature and interactions.

Exploring the role of supersymmetry in fundamental physics and its current challenges.

Research on scalar mesons reveals complex decay processes and fundamental interactions.

A look at the development and importance of the gravitational constant in science.

Exploring the relationship between pion behavior and gauge theories in particle physics.

Researchers develop new collider to study elusive axion-like particles in physics.

Researching particle pairs in high-energy collisions at the Large Hadron Collider.

Research reveals surprising interactions between massless particles and magnetic monopoles.

Researchers reveal key findings on SU(3) gauge theory and fermions.

Research on Lorentz invariance and scalar electrodynamics reveals complex particle interactions.

Recent discoveries challenge current theories in particle physics.

A look into top quarks and the search for flavor changing neutral currents.

Research reveals insights into mesons and their decay processes in particle physics.

Examining particle physics anomalies that could suggest new forces or interactions.

An overview of pentaquarks and their significance in particle physics.

Examining particle decay's role in revealing CP violation and understanding the universe.

This article examines the significance of exclusive semileptonic hadron decays in particle physics.

Examining how fixed points influence particle interactions in Quantum Chromodynamics.

Scientists are using modular symmetries to study lepton properties.

Research on heavy-ion collisions reveals properties of quark-gluon plasma and fundamental forces.

A look into how partons lose energy in different conditions of QGP.

Examining how quark mass differences impact neutron decay processes.

A look into how collisions affect strange particle production.

An overview of W boson loop calculations in electroweak theory and their implications.

This article explores the Odderon and its significance in particle physics.

Exploring the potential of lepton flavor violation signals through new colliders.

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.