Latest Articles for Experimental Research

Research sheds light on the complex superconducting properties of strontium ruthenate.

A conflict in proton size measurements raises questions in particle physics.

Study reveals key insights about magnetism and superconductivity in UCoGe.

Explore the properties and significance of Stiefel-Whitney and Euler insulators.

This study explores the strong coupling constant and its relationship with energy scale.

Study reveals how Rydberg atoms shift between phases under periodic driving forces.

Study reveals how laser pulses affect electron movement in ZrTe.

Study reveals how interactions affect transitions between Luttinger liquids and Anderson glasses.

This article examines particle behavior under non-normalizable quasi-equilibrium states.

New insights into non-Hermitian systems reveal fascinating fractal patterns and exceptional points.

Exploring muon's magnetic moment anomaly and its connection to two-Higgs-doublet models.

Researchers investigate dark fermions linked to dark matter using LHC data.

Recent experiments suggest traditional explanations for unusual superconductivity behavior in layered materials.

Exploring new physics through two Higgs doublet models in particle physics.

Investigating relaxation processes in cavity quantum electrodynamics for advanced technologies.

Research into CP asymmetry reveals insights about matter and antimatter imbalance.

Study reveals complex behavior patterns in linked kicked rotors over time.

Scientists investigate magnon squeezed states using hybrid systems to advance quantum technologies.

SIDDHARTA-2 experiment offers precise measurements of kaonic atom transitions.

Research shows adding different atoms can stabilize complex vortex structures in superfluids.

New model enhances predictions for laser-plasma interactions in fusion research.

Muon colliders may reveal new particles and insights into dark matter.

Research delves into kagome lattices and their unique superconducting properties.

A simplified approach enhances the study of topological orders and anyons in quantum physics.

A look into flow decorrelation effects in high-energy particle collisions.

Research explores how confinement affects particle behavior using Rydberg atoms.

This study investigates signs of Higgs and Z bosons using advanced detection techniques.

Researchers develop innovative techniques for generating nuclear spin cat states.

This study highlights interactions in non-standard turbulent flows near surfaces.

Researchers study how quarks form mesons using fragmentation functions to improve models.

A look into how light and molecules behave in confined spaces.

A look into the Kitaev honeycomb model and its implications for quantum liquids.

Recent findings on muons challenge existing physics theories and suggest potential new discoveries.

Research reveals insights into fast-moving quarks within deuterium nuclei.

A look at how lasers influence electron behavior in materials.

This article explores the intriguing properties of tetraquarks and their significance in particle physics.

This article explores how nematic elastomers react to pressure during indentation.

Researchers develop a waveguide system to utilize gravitational effects on x-rays.

A look at how vector boson fusion helps study the Higgs boson.

This research examines the unique behavior of active nematic fluids in confined spaces.