Latest Articles for Particle Physics

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.

Examining how magnetic fields affect pion decay rates and particle interactions.

Researchers study ytterbium for clues about dark matter through advanced atom interferometry.

Exploring bubble walls and their role in the early universe's phase transitions.

This article examines low-temperature calorimeters in the quest for dark matter.

Researching long-lived particles at FCC-ee could reshape our understanding of physics.

This model links gravity and particle interaction theories to deepen our understanding of the universe.

Research on accurate binding energy methods enhances understanding of atomic nuclei.

Exploring the wavefunction within the framework of quantum field theory.

Exploring the fascinating behavior of topological insulators and their connection to fermions.

Understanding proton interactions at high energies reveals universal behaviors and patterns.

Exploring the production and implications of axions in the cosmos.

Scientists investigate millicharged particles to uncover dark matter insights.

Gaussian Mixture Models improve predictions in particle physics by addressing data tensions.

Researchers investigate Higgs boson decays into photons and dark photons using ATLAS data.

Machine learning methods enhance unfolding techniques in high-energy physics for accurate particle properties.

Overview of new developments in crystal technology for double-beta decay studies.

Scientists investigate W and Z bosons for clues about dark matter.

Research reveals carbon-enriched LGADs outperform standard sensors under radiation exposure.

New insights into baryon resonances reveal their complex interactions beyond quark models.

A look into flavor symmetries and quark-lepton unification in mass differences.

Explore the significance of moduli spaces in theoretical physics and their connection to symmetry.

Investigating phase transitions using effective field theories and their impact on gravitational waves.

New methods enhance accuracy of parton showers in high-energy particle collisions.

The EIC aims to provide insights into the partonic structure of protons.

Exploring the unique features of braided scalar field theories in quantum physics.

This article examines the impact of warm dark matter on the universe's structure.

Researchers derive important limits on scattering amplitudes in theoretical physics.

An overview of form factors and their role in particle physics interactions.

Research on the Higgs boson reveals intricate particle interactions and challenges in measuring its properties.

This article explores stout smearing and Wilson flow in lattice gauge theory.

Study examines how pseudoscalar mesons affect proton dynamics through generalized parton distributions.

A study of how particles move near magnetized Schwarzschild black holes.

Research reveals how rotation and temperature affect gluon dynamics.

Investigating how early universe conditions favored matter over antimatter.

Scientists investigate a high-energy cosmic ray possibly linked to dark matter.

Exploring how quantum computing models complex particle behaviors and interactions.

Modern imaging and machine learning improve detection of particle decays.