Latest Articles for Experimental Research

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

Kitaev materials reveal interesting magnetic behaviors through unique spin interactions.

Research introduces a model for better understanding glass materials and their properties.

Research examines how mesons react in hot, magnetized environments.

Investigating light interactions with rubidium gas and vortex dynamics.

A study on the effectiveness of mixed likelihood-free testing methods.

Investigating isomer states in odd-even isotopes of Md and Rg nuclei.

Research reveals advances in understanding cluster radioactivity and its implications for nuclear decay.

A study reveals how strong interactions alter charge movement in quantum systems.

This research reveals insights into neutron-proton scattering and their interactions within the atomic nucleus.

Dolerophanite exhibits unique magnetic properties due to its special structure.

Study reveals new properties of uranium thin films on diverse substrates.

Research reveals exotic properties of double-gluon charmonium hybrid states in particle physics.

Ongoing experiments aim to locate the elusive QCD critical point in particle physics.

This study examines how sound waves affect droplet suspension and sorting.

A look into W boson mass discrepancies and the NMSSM model.

This article looks into light spin-1 bosons and their significance in particle physics.

Investigating rare particle interactions at the Compact Linear Collider.

Examining the complex behavior of materials during superconductor-insulator transitions.

Studying ultraperipheral collisions reveals the structure of protons and nuclei through photon interactions.

Examining the significance of long-lived particles in particle physics using the MATHUSLA detector.

New insights into tetraquarks reveal complex interactions and stability factors.

Researchers uncover unusual decay patterns in light hadrons, hinting at new particle states.

This article discusses Higgs boson rare decay processes and their implications for particle physics.

A look into the behavior of vortices in superfluids and their unique properties.

A look into the strong force and its role in hadron structure.

A new method streamlines measuring entanglement and coherence in quantum systems.

New techniques using metasurfaces improve multiphoton state measurements for quantum technologies.

ATLAS collaboration achieves remarkable accuracy in measuring the Higgs boson mass.

Scientists delve into the intriguing world of six-quark particles called dibaryons.

Research reveals mesons' behavior in nuclear environments, focusing on eta and eta-prime.

Active matter challenges traditional concepts of interfaces in physics.

Researchers investigate axions to address mysteries in physics and dark matter.

A deep learning approach enhances Hamiltonian reconstruction for quantum simulations.

A new model sheds light on neutrino masses and mixing behaviours.

This study examines the role of saturation rules in plasma transport modeling.

Research investigates how nuclear shape impacts quark-gluon plasma in heavy-ion collisions.

A look at neutrinos and their role in particle physics.

Researching particle decays to understand strange particle interactions at PANDA.

Recent findings on top-quark and W-boson production at the LHC enhance particle physics research.