Latest Articles for Quantum Physics

Exploring the Casimir effect and its implications across various particle systems.

Exploring plasma's role in creating entangled photon pairs and squeezed states.

This article reviews the role of topological defect lines in quantum physics.

Research on multiterminal Josephson junctions reveals unique properties of superconductors and normal metals.

Scientists study unique atomic groups called trimers and their interactions at low temperatures.

A study on improving parameter estimation in quantum systems using advanced techniques.

An overview of Gaussian processes, kernels, and their significance in quantum theory and data analysis.

A new technique generates squeezed light using excitons and phonons at room temperature.

This article examines how curved shapes influence quantum vortices in Bose-Einstein condensates.

Research extends the equation of state for ultracold Bose gases beyond traditional models.

New method streamlines analysis of particle movement in quantum systems.

Investigating how gravity influences electron behavior and potential implications for physics.

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

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

An overview of Bell's theorem and its implications for quantum systems.

hBN spin defects enhance precision in quantum sensing across multiple fields.

Study of quantum systems revealing transitions based on particle arrangements and interactions.

Explore the unique phases and properties of graphene under strong magnetic fields.

Exploring the significance of quantum emitters in non-Hermitian systems and photonic lattices.

This article explores chirality and its implications in gapped phases of matter.

Study reveals how disorder affects unique electrical properties of special materials.

Research reveals a new type of skyrmion with unique properties in superfluids.

CuD's unique properties reveal insights into quantum magnetism.

Study of phase interactions affecting droplet behavior in materials.

This study examines multifractal statistics in non-Hermitian systems utilizing Cayley trees.

A new technique simplifies heat kernel expansions for complex operators in quantum theories.

This article discusses models to simplify the study of heavy fermion materials.

An overview of self-dual tensor products in finite-dimensional convex cones and operator systems.

Research reveals surprising changes in electrical behavior of pentalayer graphene.

Study reveals interactions of a single spin with its bosonic environment.

This study examines how impurities impact vortex lattices in rotating Bose-Einstein condensates.

Research reveals how particle behavior varies with quantum torus shapes.

Spin crossover materials offer unique behaviors with applications in technology.

Scientists are pushing the boundaries of quantum physics with levitated masses and superposition states.

Twisted bilayer graphene reveals unique phases and properties through specific twists and chemical doping.

A novel technique improves the study of NV centers for quantum applications.

Research reveals novel polariton behavior in perovskite double microcavities with potential applications.

New imaging techniques enhance clarity of biological samples at small scales.

Research integrates valley physics with quantum systems for better electronics.

Investigating spin chains reveals complexities in magnetic behavior and quantum states.