Latest Articles for Fundamental Forces

This article delves into the intriguing properties and production mechanisms of charmonium states.

Scientists investigate the implications of negative effective ranges in particle interactions.

A proposed model aims to address key questions in particle physics.

Scientists aim for better insights into particle interactions through the weak mixing angle.

Research sheds light on nucleon spin and its implications for particle physics.

Researchers probe boson production with photons, revealing crucial interactions in particle physics.

Research on D-wave charmonium enhances our understanding of quark interactions.

A deep dive into nucleons, resonances, and their properties.

A look into the role of fermions in gauge theories and mass hierarchies.

This article examines how heavy quarks interact with glasma in high-energy collisions.

This study presents a unified model for understanding hadron scattering behavior across energy levels.

A look into top quarks and their role in particle physics.

Examining nucleon decay offers insights into fundamental physics and the matter-antimatter imbalance.

A look into three-body decays and their significance in understanding particle interactions.

An overview of scalar mesons and their importance in particle physics.

Exploring the issues related to CP violation in the real 2HDM.

A look into neutral meson mixing and its implications for new physics.

Investigating dark photons could unveil secrets of dark matter and fundamental particle interactions.

Study reveals jet modifications in extreme conditions of QGP.

Researchers enhance knowledge of mesons using advanced techniques and theoretical methods.

This article explores the significance of heavy quarkonia in particle physics.

Scientists investigate vectorlike quarks and heavy Higgs bosons in particle physics.

Studying T-odd observables reveals insights into top quark interactions and potential new physics.

Research reveals key patterns in baryon and anti-baryon behavior during high-energy collisions.

Exploring charmonium decays reveals key information about particle interactions.

This study focuses on detecting long-lived particles to uncover new physics.

A look into how angularities and beam functions advance high-energy physics research.

A look at the X(3872) and its connection to meson interactions.

Scientists study semileptonic decays to test theories and look for new phenomena.

A look at the fascinating world of neutrinos and their interactions.

Study of chiral effects reveals insights into quark-gluon plasma behavior.

Exploring how extra dimensions influence particle interactions and force unification.

Recent research enhances calculations related to electroweak vector bosons in particle physics.

A look into how photons reveal insights about heavy ion collisions and quark-gluon plasma.

Exploring the challenges in detecting dark matter and the potential role of hidden sectors.

Scientists probe mysterious aspects of dark matter and flavor anomalies in particle physics.

Exploring the complex nature and interactions of neutrinos in the universe.

Scientists investigate heavy neutral leptons and axion-like particles to unravel universe mysteries.

A look into the lesser-known processes in nuclear physics.

Examining the behavior of polarized quarks and their role in proton spin.