Latest Articles for Experimental Techniques

A fresh approach to analyze particle movement in glassy materials.

Research on jet production provides insights into the quark-gluon plasma.

This study delves into the unique electronic features of Ta NiSe at low temperatures.

Research reveals new insights into particle interactions in confined Fermi gases.

This study examines how positively charged kaons interact with argon in high-energy experiments.

Research on LaTiSb reveals significant phase transition insights and unique properties.

Exploring how gravitational waves behave in plasma environments.

Explore polaron formation in various insulating materials and its implications.

Exploring how impurities affect unique behaviors in non-Hermitian systems.

Liquid scintillators are essential for detecting ionizing radiation and particles like neutrinos.

Exploring the role of proteins in cellular responses to EGF stimulation.

Research tackles phonon-induced errors in spin qubits for better quantum computing.

Examining the behavior of soft modes near quantum phase transitions.

Scientists examine how atoms and light interact in waveguides for new technology.

Research reveals new connections between Berry phase and quantum tunneling effects.

Recent studies reveal insights into silicon's structure under high pressure and temperature.

Study reveals the role of spin fluctuations in the magnetocaloric effect of MnFe Si.

Serpentine structures offer flexibility and stability for innovative applications in technology.

Exploring the potential of nitrogen-vacancy centers for quantum technology applications.

Discover the role and significance of axion-like particles in dark matter research.

Light axions reveal complexities in detecting dark matter through their unique properties.

New findings challenge established theories on TiSe2's phase transition behavior.

Scientists study quantum spin liquids for insights into advanced technology.

Boulby Underground Laboratory enhances material screening for research with advanced detectors.

A new method reveals insights into quantum materials through self-energy analysis.

Research reveals charge patterns in doped Mott insulators affecting superconductivity.

Study reveals complex behavior in heavy-fermion materials influenced by temperature and element substitution.

Research focuses on YbOCl's magnetic behavior and interactions at low temperatures.

Research highlights intriguing magnetic behaviors in Cs Cu SnF and Rb Cu SnF.

This article explores the behavior and significance of nuclear isomers, focusing on Hafnium.

A look into fractional quantum Hall states in graphene and their implications.

Study of CeRhIn's magnetic behavior at low temperatures and under magnetic fields.

An overview of current-induced circular dichroism and its implications in materials science.

Research into scalar unparticles using muon colliders offers new insights into particle interactions.

Isotope shifts provide insights into nuclear properties and fundamental physics.

Research on thorium-232 isomer offers insights into nuclear physics and potential applications.

New experimental techniques enhance insights into scalar meson properties via photoproduction.

Using atomic arrays to detect gravitational waves shows great promise.

Scientists study waterfall patterns to understand electron behavior in superconductors.

Research reveals insights into magnetization oscillations affected by a rotating magnetic field.