Latest Articles for Experimental Techniques

Examining how charge fluctuations affect the properties of rare earth materials.

Recent findings on tau lepton properties challenge existing theories in particle physics.

A new model simplifies predicting elasticity tensors for various materials.

New methods reveal insights into topological materials through microwave light interactions.

This study highlights how angular momentum influences light-matter interactions in chiral cavities.

Research on exotic atoms reveals new aspects of particle interactions.

This study examines the electronic properties of TaAs and TaP using NQR.

This study examines spin noise for insights into atomic interactions.

Researchers achieve low temperatures for potassium atoms using natural sources.

An overview of quantum critical points and related phenomena in physics.

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

Exploring the intricacies of quantum phase transitions and local fidelity measures.

New methods improve analysis of non-Maxwellian plasma dynamics using Thomson scattering.

This article examines the importance of stability in non-i.i.d. quantum sources.

Research focuses on developing efficient superradiant lasers using cold atoms and innovative techniques.

A look into meson production methods and their role in quark arrangements.

A look into how neurons operate and their significance in brain health.

A simpler approach promises efficient calculations of magnetic moments in particle physics.

A look into topological states and their significance in quantum physics.

Research on leptophilic gauge bosons aims to uncover new physics.

A look at the fascinating behaviors of magnetic materials and their transitions.

Researchers search for dark photons, potential dark matter, using advanced detection techniques.

This study reveals the behaviors of charmonium states under extreme conditions.

Y Ru Ge exhibits unique superconducting behaviors and challenges conventional theories.

A novel approach to examine strongly correlated electrons and neutrons with simpler tools.

Investigating how energy and clustering affect nuclear phase transitions during heavy-ion collisions.

Research advances in neutron interferometry enhance material analysis at small scales.

Investigating how mass is distributed in helium nuclei.

Exploring how time delays affect particle behavior in different potentials.

Delving into the complex relationship between light and matter in polaritonic chemistry.

Analyzing the effects of polarized neutrons and weak nuclear interactions.

A look at CD-ARPES and its impact on material science.

Researchers achieve progress in preparing molecular ions for precise experiments.

Exploring the unique properties of UTe and its spin-triplet superconductivity.

A look into QED effects on semi-leptonic decay processes and their measurements.

New methods enhance precision of hyperfine calculations for quantum applications.

An overview of meson decays and their significance in particle physics.

Investigating relaxation processes in quantum systems affected by bulk dissipation.

Exploring the impact of polarization blockade on nuclear spin manipulation and techniques.

Research reveals new methods to detect magnetic octupoles in materials.