Latest Articles for Particle Physics

Scientists explore invisible neutrino decay through DUNE and T2HKK experiments.

Quantum walks reveal unique particle behaviors and applications in technology.

Scientists study jets and subjets to improve particle behavior models.

Exploring new classes of mixed states in quantum teleportation for better communication technology.

Research delves into resonances formed by heavy quarks and their interactions.

Investigating elusive particles that may answer fundamental questions about our universe.

Dark matter's role in cosmic events and its properties are vital for understanding the universe.

A brief overview of Quantum Chromodynamics and its significance in particle physics.

A new method improves jet energy estimates using pairs of jets.

Exploring the significance of axion-like particles in physics and their connections to dark matter.

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

Exploring Yukawa couplings and modular forms in particle physics through string theory.

Research sheds light on neutral gauge bosons and their implications in particle physics.

A new algorithm boosts data processing efficiency at the LHCb experiment.

New insights into particle interactions through -wave scattering studies.

This article examines how quark interactions are shaped by running coupling constants and phase transitions.

A look into neutrinos, their mixing patterns, and implications for our universe.

This study examines mass and properties of baryons with heavy quarks.

Examines how sterile neutrinos may affect core-collapse supernova dynamics.

A deep look into the properties and study of neutron stars.

New methods enhance the accuracy of top quark pair production simulations.

Scientists investigate potential new particles through high-energy collisions at the LHC.

Researchers examine muon g-2 anomaly and diphoton excess in search of new physics.

An overview of the cosmic neutrino background and its significance in the universe.

Exploring the relationship between black holes and accelerated electrons through radiation.

New developments enhance NaI(Tl) detector capabilities for dark matter studies.

Study reveals how energy affects meson production during proton-proton collisions.

This paper addresses the challenges of fermion masses in high-energy particle interactions.

New detectors may enhance our understanding of neutrinos and their interactions.

A deep dive into stability and quantum corrections in the Litim-Sannino model.

Research into Fuzzy Dark Matter reveals new insights on dark matter behavior.

A look at how the FN mechanism helps explain particle mass variations.

Exploring lattice gauge theories in theoretical physics and their significance.

A look at how quarks group and interact in different structures.

Research using ATLAS detector aims to find new high-mass particles beyond the Standard Model.

Research investigates top quarks and missing energy to probe Dark Matter.

Researchers analyze neutrinos to understand mysterious cosmic phenomena.

Exploring the connections between neutrinos, dark matter, and lepton flavor violation.

Exploring the impact of quantum decoherence on neutrino behavior through major experiments.

A study examines diboson polarization based on energy levels using ATLAS detector data.