Latest Articles for Particle Physics

Neutrino forces could challenge our understanding of interactions in the universe.

Exploring the Higgs boson, naturalness problem, and new particle models.

Investigating the potential presence of charm quarks within protons.

Scientists develop a method for precise gradient computation in physical observables.

Scientists investigate dark matter, focusing on ultralight dark matter and pulsar signals.

This research explores the role of keV neutrinos in dark matter production.

Neural networks improve predictions of electron-nucleus interactions for advancing scientific research.

Exploring anomalies and their role in dimensional transitions in quantum field theories.

Researchers investigate decay processes to assess lepton flavor universality and its implications.

A novel algorithm offers solutions to challenges in fermionic simulations.

An overview of vortices, their interactions, and implications in various physical systems.

This study examines how baryons interact and form complex structures during scattering.

New models enhance understanding of particle collisions and interactions in physics.

Investigating the complex world of exotic hadrons and their properties.

Discoveries in particle physics reveal unexpected spin alignments in high-energy collisions.

Research on antiproton interactions reveals crucial details about particle behavior.

A look into the relationship between matter and antimatter after the Big Bang.

Exploring the unique properties of chiral gauge theories in two dimensions.

Researchers use muon beams to explore dark matter mediators and their properties.

CUPID-Mo sets new limits on double beta decay, aiding neutrino studies.

Research reveals the impact of strong electric fields on positron emission from vacuum states.

Examining the relationship between neutrino masses and CP violation through the seesaw mechanism.

Jet Flow Networks improve particle jet classification using machine learning techniques.

Research on neutrinos sheds light on fundamental questions about the universe.

Research delves into potential new particles and interactions at the frontier of particle physics.

Exploring how charge density influences symmetry in quantum systems.

Researchers enhance neutrino detection using high-pressure gas systems in the ALICE OROC.

Research on fragment production in high-energy nuclear collisions reveals key principles of atomic interactions.

Exploring the role of trapped ions in simulating fundamental gauge theories in physics.

Fermilab's NuMI project advances neutrino studies with improved measurement techniques.

Examining particle interactions under supersymmetry with broken Lorentz symmetry.

CERN's FASER experiment reveals new limits on dark photons and first neutrino detections.

Research into axions and vector-like quarks may illuminate dark matter mysteries.

New findings deepen our knowledge of matter and antimatter through particle decays.

Research on pion production reveals key insights into particle interactions.

Scientists study how entangled particles behave in high-energy collisions.

Exploring mesonic screening masses and their significance in high-temperature QCD.

Investigating new particles to understand dark matter through the Belle II experiment.

New framework enhances understanding of particle emissions in collider experiments.

Research reveals how ion-scale waves influence particle energization in the solar wind.