Latest Articles for Fundamental Forces

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.

Research on heavy mesons produced from light nuclei interactions sheds light on gluons.

Recent findings reveal complex behavior in particle decay processes.

Research measures Higgs boson production rates in collisions involving top quarks.

Exploring the complexities and developments in Yang-Mills theory.

A novel technique enhances top quark mass measurements using energy correlators.

Recent findings enhance predictions for W boson decays into heavy quarks.

Examining the role of clockwork models in explaining neutrino masses.

Research delves into particle decay, enhancing understanding of charmed mesons and their interactions.

Examining how mesons transition during weak interactions through form factor calculations.

Study reveals behaviors of charged black holes in relation to monopole charges.

Research advances reveal complexities in Higgs boson self-couplings.

Investigating braneworld theories offers insights into gravity and fundamental forces.

Investigating new sources of CP violation through Higgs interactions.

Examining multi-Higgs theories as a way to address the strong CP issue in particle physics.

Researchers investigate unique particles made of four quarks.

New techniques aim to measure the neutron EDM with greater accuracy, exploring fundamental physics.

Researchers analyze how observables change during high energy particle collisions.

A study on Higgs boson interactions with charm quarks at the LHC.

Scientists aim to observe gravitational quantum states in hydrogen atoms.

Investigating how Yukawa couplings impact neutrino masses and lepton flavor violation.

A new method combines soft and hard particle interactions for deeper physics insights.

Research into meson decays at Belle II uncovers fundamental physics insights.

Examining the dual view of the Standard Model and its implications.

Scientists study neutrinos and polarized electrons to explore time reversal symmetry violation.

CP violation helps explain the matter-antimatter imbalance in our universe.

Research on tetraquark and hybrid states is revealing new aspects of particle physics.

Research on mesons reveals insights into their behavior within atomic nuclei.

Research investigates quantum entanglement through neutral mesons and Bell's inequalities.

Exploring the role of symmetries and anomalies in particle interactions and meson behavior.

Research on kaonic atoms reveals complex interactions in nuclear environments.

Examining heavy mesons provides insights into quark-gluon plasma behavior and energy loss.

Scientists investigate the role of right-handed neutrinos in understanding neutrino mass.