Latest Articles for Particle Physics

Researchers reveal key findings on SU(3) gauge theory and fermions.

Exploring the relationship between fractons, holography, and gravity in theoretical physics.

Research on Lorentz invariance and scalar electrodynamics reveals complex particle interactions.

Recent discoveries challenge current theories in particle physics.

A look into orthosymplectic super instantons and their role in gauge theories.

Investigating scalar singlets and their role in beyond Standard Model physics.

A new cooling method shows promise in improving particle collider performance.

New research reveals how quantum entanglement affects top quark behavior in collisions.

Exploring how complexity measures information in fermionic systems and its significance.

Exploring how different particle shapes affect melting processes.

HEPScore aims to improve computing performance evaluation in particle physics research.

Investigating the reheating phase following inflation in the early universe.

A study of Sudakov shoulder logarithms and their impact on heavy jet mass predictions.

Research expands charge assignments in FN models to address the flavor problem.

This article examines flavor-changing decays of the Higgs boson in the Two Higgs Doublet Model.

Insights into pion interactions and scalar meson behavior from recent experiments.

A look at how Higgs inflation connects particle physics to the universe's early moments.

A closer look at the unique behavior of forbidden dark matter.

A look into top quarks and the search for flavor changing neutral currents.

Study shows how electric fields create unique vortex patterns in particle production.

Research reveals insights into mesons and their decay processes in particle physics.

Examining particle physics anomalies that could suggest new forces or interactions.

A look into the significance of neutrinoless double-beta decay in physics.

An overview of pentaquarks and their significance in particle physics.

XCC aims to efficiently produce and study Higgs bosons using advanced technology.

Study reveals methods to improve gamma-ray detection accuracy in germanium detectors.

Scientists investigate axion-like particles formed during top quark collisions.

Research reveals how rotation affects quark-gluon plasma behavior in heavy-ion collisions.

This article examines decay constants and distribution amplitudes in pseudoscalar mesons.

Examining particle decay's role in revealing CP violation and understanding the universe.

Recent research sheds light on dark matter and the matter-antimatter imbalance.

This study examines the decay processes of tensor mesons using perturbative Quantum Chromodynamics.

Scientists study ultra-light axions to learn about dark matter and the universe's early period.

Recent studies uncover anomalies in Higgs boson research at 95 GeV.

Examining the role of resonance in particle behavior within storage rings.

Recent advancements in atomic parity violation studies enhance electroweak observable extraction.

Researchers investigate new models explaining neutrino behavior and particle interactions.

JUNO aims to reveal dark matter through neutrino detection and advanced analysis techniques.

Explore the fundamentals of beam dynamics in particle accelerators.

Examining the role of charm quarks in understanding Quark-Gluon Plasma.