Latest Articles for Experimental Techniques

This article examines superconducting coplanar resonators and their role in science.

Research reveals how defects shape vortex behavior in superconductors like YBaCuO.

New insights into ultracold diatomic molecules reveal their potential in technology.

Studying interactions of Rydberg atoms reveals complex behaviors in many-body systems.

Research reveals how clustering impacts nuclear decay processes.

Researching B mesons sheds light on the strong force and quark interactions.

An overview of projectile fragmentation reactions and invariant-mass spectroscopy.

Examining pinch points enhances our knowledge of quantum materials and their behaviors.

Investigating how pions behave under different conditions to enhance our understanding of particle physics.

Study reveals how fat arrangement affects membrane properties in lipid vesicles.

Examining electron screening effects on nuclear reactions, especially in stars.

Researchers study open-charm mesons using correlation functions and femtoscopy techniques.

Investigating leptoquarks to deepen our understanding of particle interactions.

Scientists are investigating neutron decay to uncover potential new forces in physics.

A look at the unique behaviors of graphene nanoribbons in electronics.

Examining how impurities influence Bogoliubov Fermi surfaces in superconducting materials.

This article explores how adding and subtracting photons alters light properties.

Study reveals detailed electronic properties of Ni MnGa in different phases.

Research focuses on how gluons affect proton spin through upcoming experiments.

Double-beta decay may reveal new particles and deepen our understanding of the universe.

A look into the unique properties and challenges of quantum spin liquids.

Investigating fusion excitation functions and challenges with low-abundance isotopes.

Study reveals insights into the unique magnetism of pyrochlore ruthenates.

Researchers uncover complex superconducting phases in CeRh As with unique atomic structures.

Exploring the significance of magnons in the behavior of magnetic chains.

Study reveals key insights on the pseudogap phenomenon in Tl-1223 superconductors.

BaYbSiO exhibits unique magnetic behaviors influenced by its honeycomb structure.

Investigating the properties and potential applications of warm dense hydrogen.

Research reveals the complex relationship between atomic arrangements and charge density waves in cuprates.

A look into the Quantum Hall Effect and its implications for advanced technologies.

A look into how hyperfine anomalies reveal insights into atomic structures.

Scientists aim to find new heavy bosons using the ATLAS detector at the LHC.

Researchers study spin liquids and their behavior after quantum quenches for potential applications.

An overview of spin liquids and their intriguing magnetic properties.

Research reveals key electronic properties of Sr RuO using advanced Raman techniques.

A new thermal state improves temperature readings in quantum systems.

A method using double light sheets enhances fluid flow measurement accuracy.

Researchers investigate how quantum liquid filaments turn into droplets under various conditions.

An overview of low-energy photons from heavy quark hadrons and the challenges in detection.

Exploring the significance of nuclear mass models in astrophysics and element formation.