Latest Articles for Fundamental Forces

Investigating unique fermions that could reshape dark matter understanding.

Exploring how gravity influences particle behavior and scale invariance in the universe.

Investigating meson decays reveals insights into dark matter and matter-antimatter imbalance.

A look into the intriguing world of symplectic scalar fermions and their implications.

Explore the Lamb shift and its impact on atomic energy levels.

Researchers are investigating the mysteries of protons, including their mass and structure.

Exploring new models for particle mass without the Higgs boson.

Examining Higgs boson production with vector bosons and its implications for particle physics.

Scientists investigate leptoquarks to explain unexpected particle decay results.

Scientists propose new experiments to uncover the hidden properties of neutrinos.

Research reveals how quark mass influences meson characteristics and interactions.

Explore gauge theories, symmetries, and phase transitions in modern physics.

An examination of proton structure and behavior under high-energy conditions.

Learn how heavy quarks behave in quark-gluon plasma during high-energy collisions.

Investigation into the theoretical decay of protons and its implications for physics.

Researchers aim to understand the role of quarks and gluons in nucleons.

Researching lepton pair production reveals insights into fundamental physics and early universe conditions.

This article examines rare decays of bottom quarks and implications for fundamental physics.

Scientists are developing methods to study rare and forbidden decays in particle physics.

Researching neutrino behavior helps uncover fundamental physics and cosmic mysteries.

A new perspective on gravity and its mysteries.

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.