Latest Articles for Particle Physics

A closer look at ultralight dark matter and its formation around massive objects.

An overview of quark-meson models in particle physics and their significance.

Exploring the challenges and significance of detecting neutrinos in the universe.

Research identifies safe operating voltages for LGAD sensors under high-energy conditions.

An overview of quark masses and their significance in particle physics.

Examining the impact of the Jost function on particle interactions.

Researchers aim to understand neutrinos through left-right symmetry at future colliders.

Examining how energy can be harnessed from wormholes through magnetic reconnection.

South Africa's PAUL will advance research in dark matter, neutrinos, and more.

Research combines models to better describe neutrino interactions with atomic nuclei.

Exploring the significance of gluon production in high-energy physics.

Researching quark-gluon plasma behavior under extreme conditions in heavy-ion collisions.

Exploring the fundamentals of noncommutative gauge theories and their implications in physics.

Researchers refine methods to detect lighter dark matter particles, revealing new constraints.

Examining links between gauge theories and gravity through Kerr-Schild spacetimes.

Examining the production of antinuclei in cosmic rays for better scientific insights.

Exploring the behavior of twisted electrons in magnetic fields reveals important insights.

Exploring the unique properties and potential applications of non-abelian anyons in quantum computing.

A look into dark matter and the challenges of the freeze-in mechanism.

This article discusses how dilatons affect the behavior of Goldstone bosons.

A look into charmoniumlike hybrids and their decay processes in particle physics.

Study reveals how muon detection decreases as angle increases using QuarkNet.

Researchers are modifying neutrino mixing models to align better with experimental data.

MINERvA study sheds light on nucleon structure through antineutrino interactions.

A look into the nature and behavior of near-continuum dark matter.

Research explores solitons decaying into gravitons, revealing insights about dark matter and cosmic evolution.

Research explores how electron-positron pairs are formed in strong electric fields.

This study investigates lepton doublet dark matter and its production mechanisms.

A look at scalar mesons and kaon-induced reactions in particle physics.

An overview of scattering amplitudes, focusing on the Virasoro-Shapiro amplitude in AdS space.

Researchers use anomaly detection to find hidden particles in collision data.

Researching SUEPs may hint at new particles and interactions within dark sectors.

Examining jets to enhance our understanding of the quark-gluon plasma.

New insights on bosonic systems and edge modes reshape our view of quantum mechanics.

A new model connects dark matter and neutrino masses through a scalar field.

Research reveals how memory affects heavy quark dynamics in quark-gluon plasma.

A novel approach improves simulation of complex bosonic systems for quantum technologies.

Investigating how ultralight dark matter influences gravitational wave detection methods.

Research aims to detect axions and magnetic monopoles using high voltage capacitors.

Researchers study liquid leaf targets to improve ion acceleration with lasers.