Latest Articles for Experimental Research

Study reveals insights into twisted hedgehogs and inversion rings in chromonic materials.

Exploring how particles move through topological pumping in quantum systems.

Research on anomalous particles X17 and E38 may change particle physics.

This article explores prethermalization in systems influenced by periodic external forces.

An overview of hidden variables and their impact on quantum physics.

Research investigates new heavy bosons through proton-proton collisions.

Research reveals complex magnetic behaviors in -RuCl, linking to quantum spin dynamics.

A look into charmonium states and their significance in particle physics.

This research measures top quark production alongside bosons, crucial for particle physics.

A study of plasma filaments in fusion devices and their effects on energy transport.

Ultracold molecules are key tools for studying quantum mechanics and information processing.

New findings on exceptional points reveal intriguing behaviors and their connections to symmetry.

Scientists observe a new charmed baryon decay, revealing insights into particle interactions.

A deep dive into how nuclear deformation shapes atomic behavior.

Exploring how rotational states affect interactions among polar molecules.

The study of neutrinos unveils mysteries of particle physics and the universe.

This article examines how CdAs films react to different magnetic fields.

This article discusses new methods for calculating weak decays and addressing related challenges.

The AMoRE-pilot phase sheds light on rare decay processes and neutrino properties.

An overview of flatband systems and their unique characteristics in physics.

New methods improve how robots manipulate flexible items like cables and cloths.

Recent observations of neutron stars enhance our understanding of nuclear symmetry energy.

New insights into exceptional points enhance quantum sensing and technology applications.

New findings in small particle collisions reveal insights into fundamental physics.

A look into the processes and factors influencing particle decays in charmonium.

Jets in heavy-ion collisions provide insights into Quark-Gluon Plasma.

A look into the mass and behavior of neutrinos in particle physics.

Workshop highlights on challenges and research directions in high-energy heavy-ion physics.

This article examines how energy levels affect particle dynamics in heavy ion collisions.

Researchers study how moving boundaries affect energy flow between systems.

ATLAS experiments set new limits on elusive leptoquark masses and production rates.

Recent experiments and calculations shed light on the muon's magnetic moment and its discrepancies.

Researchers study electron behavior in molecules using two-color light methods.

This study reveals insights into ultrafast electronic processes using advanced techniques.

Research focuses on isomeric nuclei for detecting dark matter interactions.

Researchers demonstrate methods to create mass in quasiparticles using optical gain and loss.

Exploring supersymmetry and scalar sequestering in particle physics.

A deep look into the complexities of nucleon interactions and their implications.

Research on entangled electrons opens new pathways for quantum technologies.

Research conducts a search for gluinos using ATLAS data at the LHC.