Latest Articles for Fundamental Forces

A look at neutrinos and their role in particle physics.

Exploring scattering processes between massless fermions and magnetic monopoles.

Researching particle decays to understand strange particle interactions at PANDA.

Research focuses on improving W boson mass measurements for better physics understanding.

Unraveling new particle interactions through the left-right symmetric model.

A look into how charged particles interact through scattering events.

A look into Kaluza-Klein theory and its quest for unifying gravity and electromagnetism.

Exploring the link between SU(5) GUTs and cosmic inflation, addressing significant challenges.

Research sheds light on particle interactions involving leptons and jets at high energy collisions.

A look into the MiniBooNE anomaly and its implications for neutrino physics.

Research uncovers potential solutions to Cabibbo angle anomaly involving sterile neutrinos.

Research reveals unexpected phases of Higgs potential at high energy levels.

Exploring the challenges and strategies in developing stable supersymmetric GUTs.

Researchers are uncovering the complex nature of tetraquarks in particle physics.

Exploring the challenges of explaining particle masses and mixing in the standard model.

Research uncovers details on excited hyperons, advancing knowledge in particle physics.

Researchers study electron-antineutrino angles to better understand the weak force.

Axions could offer answers to dark matter and particle behavior.

Neutrinos provide critical insights into the fundamental forces of nature.

Scientists examine nTGCs to reveal new physics beyond the Standard Model.

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.