Latest Articles for Fundamental Forces

Discover how dark matter interacts with electrons and its importance in our universe.

Chern-Simons theories provide insights into particle interactions and mass generation mechanisms.

Sterile neutrinos could reveal key insights about the universe's mass and matter.

Exploring the small energy variations in hydrogen due to quantum effects.

Exploring how the weak mixing angle affects particle interactions across energy scales.

Exploring the implications and search for fractionally charged particles in particle physics.

Study reveals key measurements of charmed baryons and their decay properties.

Scientists investigate the Cabibbo angle anomaly in particle physics.

This article examines recent measurements of top quark interactions and their significance.

Fragmentation functions help explain hadron production in high-energy particle collisions.

Research reveals crucial roles of short-range correlations in atomic nuclei.

Research on top quark polarization reveals insights into fundamental forces of nature.

New insights into bottom baryons enhance particle physics knowledge.

Gravity shapes the universe, influencing everything from galaxies to our daily lives.

A look into the smallest parts of matter and their interactions.

Investigating charged Higgs bosons and their role in our understanding of the Universe.

Neutrinos offer insights into fundamental forces and particle behavior in the universe.

Examining techniques and data to enhance particle physics understanding.

Exploring jet production in diffractive electron-proton collisions reveals important insights.

Researching top quarks sheds light on fundamental physics and particle interactions.

A look into the relationship between axions and Yang-Mills theory in particle physics.

A look into the unique properties of tetraquarks and their interactions.

Learn how the Higgs boson affects our understanding of mass and fundamental particles.

Investigating rare particle decays to uncover potential new physics beyond the Standard Model.

Research highlights improvements in measuring meson decay constants using advanced simulations.

Exploring particle interactions, especially the Higgs boson pair production, in high-energy environments.

Research reveals how mesons are created in extreme particle collisions.

Research sheds light on a particle's decay properties and potential molecular state.

Exploring neutrinos' role in the matter-antimatter imbalance.

Discover the fascinating world of tetraquarks and their unique properties.

This article discusses new methods in chiral gauge theories focusing on the BMHV scheme.

Researchers explore potential violations of CPT symmetry using charm mesons.

Research on top quark polarization offers insights into fundamental particle interactions.

Examining weak interactions through electron and positron collisions with protons.

Research explores axion-like particles produced during muon decay and their implications.

Research sheds light on binding energies of tetraquarks, especially doubly bottom configurations.

Research aims to measure weak charge and mixing angle with high precision.

Research on J/ψ production helps reveal nuclear matter behavior during heavy-ion collisions.

Exploring the significance of triboson events in particle physics research.

This study reviews weak decays and their implications for new physics.