Latest Articles for Fundamental Forces

Researchers investigate muon neutrinos and antineutrinos in groundbreaking experiments.

A model linking warped extra dimensions to the Higgs boson properties.

Scientists investigate tetraquarks to deepen our understanding of particle physics.

Exploring DVCS and its relationship with anomalies in particle physics.

Exploring the inverse seesaw model and its implications for neutrino properties.

Understanding particle behavior through collider experiments and precise measurements.

Belle II experiment sheds light on B meson decays and particle physics.

Researchers study B meson decays to improve understanding of fundamental particle interactions.

Research highlights the importance of lepton universality tests in particle physics.

Investigating how neutrinos interact with nucleons and the impact of nuclear effects.

Examining the 2HDM and its implications for fundamental particle interactions.

Muon colliders offer high-energy insights into particle interactions and the muon-Higgs coupling.

Research explores heavy neutrinos' role in the universe's matter-antimatter imbalance.

Examining the role and impact of noninvertible symmetries in particle physics.

Research reveals how nuclear structure affects outcomes in heavy-ion collisions.

sPHENIX aims to study Quark-Gluon Plasma through jets and heavy flavors at RHIC.

Explore the role of axions in solving the strong CP problem in physics.

Research reveals key details about neutrino behavior using argon interactions.

Scientists study jets from high-energy collisions to gain insights into particle behavior.

Scientists examine electroweak corrections to improve predictions for particle collisions.

Understanding the connection between fundamental forces and particles in the universe.

Recent experiments have sought leptoquarks with new data from the LHC.

New insights into unique particles formed from heavy quarks.

A look into neutrinos, their behavior, and implications in particle physics.

This article explores how hyperons are produced from antineutrino interactions with nuclei.

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.