Latest Articles for Fundamental Particles

Scientists investigate a newly discovered particle's structure and interactions.

Scientists study neutrino oscillation and the impact of decoherence effects.

Neutrinos are tiny particles that challenge our understanding of the universe.

Exploring fresh perspectives on hydrogen atom behavior and interactions between its particles.

Recent findings on tau lepton properties challenge existing theories in particle physics.

CUPID-Mo experiment provides precise measurements of Molybdenum-100 decay.

Research on right-handed neutrinos could illuminate dark matter mysteries and the muon anomaly.

Particle identification is crucial for upcoming collider projects.

Study examines tri-nucleon decay in germanium, setting new limits on its occurrence.

Researchers investigate CP violation in Higgs interactions using data from the International Linear Collider.

Research focuses on proton interactions in ultraperipheral collisions of heavy ions.

Researchers use machine learning to distinguish between meson types in particle collisions.

Learn about solar neutrinos and their role in understanding the sun and particle physics.

Research aims to clarify how hyperons acquire their spin in particle collisions.

A novel technique enhances axion conversion rates for improved particle detection.

Researching charm quarks reveals insights into fundamental particle behavior under extreme conditions.

Explore the wave functions of baryons and their properties in particle physics.

Chinese Electron-ion collider aims to shed light on Lambda particle behaviors.

Scientists study heavy neutral leptons to explore mysteries of the universe.

Improvements in calibrating top quark mass using advanced Monte Carlo event generators.

New experiments aim to study the muonium-to-antimuonium transition and its behaviors.

New insights on particle resonances improve knowledge of baryon-meson interactions.

A look into how energy is shared in particle jets.

DUNE experiment investigates elusive long-lived particles to advance particle physics.

Research indicates possible new Higgs bosons at 95 GeV and 650 GeV.

Exploring parton distribution functions for muons in high-energy particle physics.

The EIC promises new data to improve our understanding of partons and nuclear structures.

This article explores the significance of studying three and four top quarks.

Recent research reveals new measurements of pion form factor and implications for muons.

Researchers investigate flavour-changing neutral currents in proton collisions at the LHC.

This article discusses new findings on tetraquarks and their significance in particle physics.

CERN scientists measure interactions between top and bottom quarks, challenging existing theories.

Research on right-handed neutrinos may reshape our understanding of fundamental physics.

This article examines the rare production of four top quarks in particle collisions.

ATLAS experiments set new limits on elusive leptoquark masses and production rates.

Researchers develop a method to detect elusive higgsinos using displaced tracks.

A look into new physics through 2HDM and VLQs.

New study investigates deuteron and antideuteron production during high-energy particle collisions.

Scientists study jets and subjets to improve particle behavior models.

Research reveals spin behavior of quarks in quark-gluon plasma during heavy-ion collisions.