Latest Articles for Particle Physics

Research focuses on detecting dark matter interactions using neutrinos from the Sun.

Axions could offer answers to dark matter and particle behavior.

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

Exploring the possible outcomes and behaviors of dark matter in our universe.

Researchers use neural networks to analyze cosmic ray particle behavior effectively.

Exploring how axion-like particles influence Higgs boson decay processes.

Research explores how nuclear reactors may produce dark photons.

Neutrinos provide critical insights into the fundamental forces of nature.

This article examines a fresh approach to Higgs boson and top quark behavior.

Research reveals how dijet production varies in proton-lead collisions based on centrality.

Research into lepton flavor violation aims to uncover new particles and interactions.

Scientists examine nTGCs to reveal new physics beyond the Standard Model.

Study reveals how particle size affects production during high-energy collisions.

Research reveals important interactions of heavy quarks in high-energy collisions.

Examining particle behavior in heavy-ion collisions through cluster structure and intrinsic momentum.

Studying how strong electromagnetic fields affect particle behavior in physics.

Discover how cosmic rays create unusual radio emission patterns in galaxy clusters.

Researching axion-like particles may reveal new insights into particle interactions and decay processes.

A new method simplifies calculations of baryon distribution amplitudes in particle physics.

Research on heavy ion collisions reveals crucial details about the universe's early moments.

New measurements improve understanding of neutrino-induced charged pion production.

MRPC3b development enhances particle detection for future experiments.

Research exposes muon deficit in cosmic ray studies, improving our models.

A new system uses machine learning to improve data quality monitoring in experiments.

Research reveals new details about quasiholes using ultracold atomic systems.

Scientists study axion-like particles to explain matter's dominance over antimatter.

Examining dilepton production reveals insights into quark-gluon plasma behavior.

Recent experiments on cesium-lithium mixtures reveal unexpected stability and sound behavior.

Research into dark matter interactions reveals potential connections to neutrinos.

A new experiment aims to find axions and advance dark matter research.

CLIC aims to find leptophilic bosons, probing beyond current physics limits.

Exploring how dark matter is trapped by different celestial objects.

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

Uncovering the elusive nature of dark matter and its cosmic implications.

Exploring particle behavior under intense gamma-ray radiation.

Exploring charm loops helps us understand particle decay processes and their implications.

Researchers analyze lepton-nucleus scattering to deepen insights into nuclear interactions.

Explore the fascinating world of cosmic rays and their mysterious sources.

Research reveals connections between non-stabilizerness and entanglement in quantum systems.

This study examines rare decays of axial-vector mesons in particle physics.