Latest Articles for Fundamental Particles

Research reveals how gluons affect proton structure and particle interactions.

Scientists examine light nuclei production during ultraperipheral collisions and photon interactions.

Scientists investigate light bosons, setting limits on their existence through high-energy collisions.

Research into pentaquarks reveals their intricate internal structures.

Exploring latest findings about the Higgs boson and top quarks at the LHC.

Recent study sheds light on Higgs boson interactions with top quarks.

Researchers measure the Higgs boson's total width to uncover potential new physics.

Researching how the Higgs boson interacts with electrons through spin asymmetries.

Research reveals crucial interactions between neutrinos and neutrinophilic mediators.

A proposed model connects the small mass of neutrinos to dark matter stability.

Scientists analyze single top quark production to test particle physics theories.

Examining the viscosity of quark-gluon plasma and its implications in high-energy physics.

An overview of techniques and findings related to Higgs boson production.

Researchers study light scalars and pseudoscalars to address key questions in physics.

Research provides accurate charm quark mass measurement using advanced numerical methods.

Investigating the role of scalars and pseudoscalars in modern physics.

This study examines how positively charged kaons interact with argon in high-energy experiments.

Exploring a new framework for dark matter and neutrino mass.

Investigating heavy neutrinos could change our understanding of the universe.

Researchers study the unique X(2370) particle from various collision events.

Investigating the Two-Higgs-Doublet Model and its implications in particle physics.

A look at particle behavior in high-energy collisions.

Investigating how gravity influences electron behavior and potential implications for physics.

Scientists enhance energy measurements using dual-readout techniques in particle physics.

Leptoquarks may explain anomalies in lepton dipole moments and reveal new physics.

Examining why matter dominates over antimatter through CP violation in baryons.

Researchers study non-invertible symmetries to explain particle mass and mixing patterns.

Examining the quest for axions and axion-like particles in modern physics.

Research reveals complex states of hadrons, urging experimental verification.

A proposed theory offers fresh perspectives on particle interactions and flavor puzzles.

Neutrinos have mass, raising questions and opening new avenues for research.

Scientists aim to detect true muonium, a rare particle formed from muons and antimuons.

A look into top quark tagging and its significance in particle physics.

A new model offers insights into neutrinos and lepton behavior.

Scientists search for pairs of top quarks with the same charge at the LHC.

A look into nucleons, their structure, and the role of mesons.

Research aims to uncover possible light scalar particles alongside the Higgs boson.

New research highlights complexities in measuring neutrino mixing angles due to Lorentz invariance violation.

Scientists study dark photons through high-energy particle collisions for clues about dark matter.

Physicists investigate exotic quarks through the 2-Higgs Doublet Model using the LHC.