Latest Articles for Particle Physics

Research focuses on proton interactions in ultraperipheral collisions of heavy ions.

Delving into the mysterious hypothetical particles that challenge our understanding of speed.

Exploring the mysteries of dark matter through gravitational waves and early universe events.

Researchers use machine learning to distinguish between meson types in particle collisions.

A look into MiniBooNE's puzzling low-energy excess and its implications.

A new method measures particle beam polarization, enhancing collision research.

A look into the random movement of particles in fluids.

Investigating unique pentaquark states and their implications for particle physics.

An exploration of quantum tunneling and its implications in physics.

Research focuses on Kähler moduli for cosmic inflation and particle physics.

New quantum methods aim to improve particle track reconstruction efficiency at the LHC.

New methods enhance particle tracking in complex astrophysical environments.

Exploring the relationship between gravity and gauge theories in modern physics.

CP violation sheds light on the matter-antimatter imbalance in the universe.

Researchers investigate exotic pentaquarks, revealing potential new states in particle physics.

Examining the impact of magnetic fields on heavy quarkonia behavior in nuclear matter.

Researchers refine particle production models using advanced TMD factorization techniques.

This study examines the dynamics of three identical bosons with negative effective ranges.

New experiments may clarify the behavior of the muon and its magnetic properties.

How negative curvature influences particle movement in quantum systems.

This article discusses sterile neutrinos and their potential role in dark matter.

A look into how particle masses differ and what drives these variations.

Exploring how excited bound states impact dark matter production in the early universe.

A look into dark matter's nature and its connection to phantom dark energy.

Neutrino detectors offer new methods for monitoring Small Modular Reactors' safety and operations.

Examining how jets behave in quark gluon plasma reveals important properties of nuclear matter.

Investigating the link between dark matter, dark energy, and cosmic expansion.

NA60+ aims to gather data on heavy quarks and quark-gluon plasma.

Scientists aim to create and observe domain walls to understand dark energy and matter.

A study of particle decay times using data from the LHC.

Study examines non-thermal emissions in two massive galaxy clusters.

Investigating mediators to uncover secrets of dark matter and neutrino behavior.

Scientists study rare Higgs decays to understand particle interactions and search for new physics.

Research investigates vector-like quarks and their role in particle physics.

Anyons are unique particles with special properties that impact quantum computing.

This article reviews methods and uncertainties in hypernuclei separation energy calculations.

LHAASO detects high-energy photons, probing fundamental physics and Lorentz symmetry.

Challenging existing models, scientists explore dark matter's complex relationships.

Investigating a unique type of dark matter and its effects on cosmic structure.

Research focuses on measuring light behavior in LAB for neutrino experiments.