Latest Articles for Particle Physics

JUNO aims to measure neutrino masses through precise energy detection.

Exploring how gravitational waves may shed light on dark matter.

Study of charged particles' behavior in rotating systems under magnetic influence.

Exploring the potential connection between dark matter and the 511 keV photon signal.

Exploring how quantum histories change our view of particle behavior and measurement.

Analyzing high-energy ion collisions to explore the fundamental nature of particles.

Investigating axion stars may reveal insights into dark matter and its role in the universe.

A deep dive into the role of heavy quarks in hadron formation.

A look into how mass and temperature affect particle interactions.

CROSS experiment enhances detection of rare nuclear decay events.

Investigating Higgs decays may reveal secrets about dark matter and its connections.

Research sets new limits on dark photon interactions, advancing dark matter studies.

Exploring the role of neutrinos in supernova explosions and their significance in astrophysics.

Investigating neutrinos using the NEXT-White detector for improved energy resolution.

This study explores how disorder affects particle localization in a ladder-shaped quantum system.

A study on Higgs boson decays and their implications for particle physics.

Research into heavy ion collisions reveals insights about quark-gluon plasma and fundamental forces.

Examining jet behavior in proton-proton collisions at 13 TeV.

Examining how primordial black holes may contribute to dark matter in the universe.

Researchers investigate dark mesons related to dark matter using particle collisions.

Study reveals detailed behavior of jets from boson events using advanced techniques.

New insights on Higgs boson pairs enhance understanding of particle masses.

Research investigates vector-like quarks to shed light on particle physics mysteries.

SNO+ experiment deep underground aims to learn more about elusive antineutrinos.

A look into azimuthal asymmetries and TMDs in particle physics.

An overview of how B mesons explain the matter-antimatter imbalance in the universe.

Examining beauty hadrons' radiative decays reveals key interactions in particle physics.

Exploring the formation, behavior, and decay of oscillons in cosmology.

Research on neutrinos may reveal why matter predominates over antimatter.

Exploring the role of Regge poles in particle interactions and scattering amplitudes.

Nash states offer new insights into quantum systems using concepts from game theory.

Investigating the integration of parafermions and spin qubits for advanced quantum computing.

Scientists investigate heavy scalar particles decaying into Higgs bosons and leptons.

This article examines nucleon interactions during weak processes involving neutrinos.

Exploring the Skyrme model's implications for understanding nuclear matter and neutron stars.

A look at using dynamical stabilization in QCD simulations to improve accuracy.

Researchers investigate charmonium interactions at BEPCII collider, revealing limits and future directions.

Research reveals insights into unique particle interactions in ultra-peripheral collisions.

Exploring how fermions create entangled states through tunneling and detection.

An overview of cosmic ray behavior and their interactions with magnetic fields.