Latest Articles for Fundamental Forces

Researching axion-like particles may reveal new insights into particle interactions and decay processes.

Research on heavy ion collisions reveals crucial details about the universe's early moments.

Explore the fascinating interactions between monopoles and fermions in high-energy physics.

Scientists study axion-like particles to explain matter's dominance over antimatter.

New measurements challenge the Standard Model, hinting at unknown physics.

Exploring the significance and complexities of top quark decay in fundamental physics.

A detailed look into magnetic quadrupole moments and parity-violating polarization in Lutetium.

Investigating how mass is distributed in helium nuclei.

Gluons play a vital role in understanding atomic nuclei.

Analyzing the effects of polarized neutrons and weak nuclear interactions.

Exploring the significance of CP violation in understanding matter and antimatter.

Examining the decay processes of charmed baryons to understand fundamental forces.

A look into QED effects on semi-leptonic decay processes and their measurements.

This article explores neutrino mass through minor zeros in the mass matrix.

Researchers seek heavy particles to deepen understanding of particle physics.

Investigating whether the Higgs boson is a fundamental or composite particle.

A detailed look into how neutrinos gain mass through advanced particle physics models.

Research on all-charm tetraquarks reveals mysteries of fundamental particles.

This article discusses key issues in the Standard Model and proposes a new theoretical framework.

Researchers study surprising behaviors in small particle systems during heavy ion collisions.

Researchers unveil a method to study baryon mixing and symmetry breaking accurately.

Research sheds light on scalar meson decays and their implications in particle physics.

This article explores B mesons and their decay processes through various experimental findings.

Research highlights damped oscillations in K-mesons and their interactions.

Research on mesons helps reveal fundamental forces through semileptonic decays.

Research sheds light on gluon mass generation and its implications for particle physics.

Researchers achieve significant measurements on neutrinos’ behavior and properties.

Learn about neutrinos, their oscillation, and their significance in understanding the universe.

A look into beta decay and the significance of the Fermi function in nuclear physics.

Investigating diquarks to explain anomalies in particle physics.

Recent findings in neutrino physics may reshape our understanding of the universe.

An overview of Z boson production and decay at the LHC.

Scientists investigate surprising findings suggesting potential new physics beyond the Standard Model.

Research reveals patterns in high-energy particle collisions and their interactions.

Research investigates CP violation in charmed decays to understand matter-antimatter imbalance.

Examining the journey of particle physics and future research directions.

Investigating neutrinos at the LHC offers insights into fundamental forces and cosmic happenings.

A look into heavy neutral leptons and their implications in particle physics.

Researchers aim to detect low-mass particles influencing decay processes.

Research sheds light on the production and decay of pentaquark particles.