Latest Articles for Quantum Physics

Exploring the unique properties of regular black holes and their significance.

Research shows how wave function geometry improves thermoelectric materials' performance.

This article examines the Kondo effect and its implications in magnetic spin systems.

Discovering how edge modes influence new technologies in topologically ordered materials.

This study connects two quantum models for better understanding of their interactions.

Research on scheduling strategies improves quantum information transfer efficiency.

Research on moiré superlattices reveals new phases in layered materials.

Investigating the impact of twist angles on the electronic properties of graphene layers.

This article discusses three-loop calculations of electron self-energy in quantum electrodynamics.

Researchers reveal hidden curved spaces in the bosonic Kitaev model, impacting quantum behavior.

Recent research reveals that atomic spin waves can regenerate, enhancing their stability and efficiency.

Analyzing how perturbations affect collective light emission in quantum systems.

Research presents innovative technique for understanding entanglement in complex quantum systems.

Examining electron behaviors in materials with Van Hove points and triplet superconductivity.

Exploring quantum geometry's role in one-dimensional periodically driven systems.

Quantum discord reveals critical correlations in quantum systems, expanding our understanding of quantum mechanics.

Exploring synthetic frequency dimensions to control magnons for enhanced information processing.

Research reveals unique properties of graphene quasicrystals and their potential in superconductivity.

Exploring unique phases of quantum materials and their implications for research.

Examining how heat exchange reveals vital aspects of quantum systems.

Researchers enhance entanglement between larger particles using innovative quantum control techniques.

Scientists study quantum spin liquids for insights into advanced technology.

New quantization conditions enhance understanding of particle interactions in lattice QCD.

A method allows simultaneous measurement of properties in two Bose gases.

This study investigates entanglement-like behavior in electrical circuits under varying conditions.

Exploring quantum behavior near black holes and its implications.

Explore how Hilbert schemes connect geometry with particle physics concepts.

Researchers investigate new ways to measure entanglement entropy in quantum systems.

A new method for efficient entanglement distribution in quantum networks.

This study examines methods for detecting bound entangled states using quantum technology.

Research reveals unique symmetry restoration in many-body localized systems through the Mpemba effect.

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

Research reveals charge patterns in doped Mott insulators affecting superconductivity.

Researchers study quantum vortices to gain insights into many-body systems.

Exploring pseudo-Hermitian systems and their impact on particle physics and cosmology.

Examining how particle size affects quantum interference and measurements.

Researchers develop a simpler method to generate Fock states using quantum measurement.

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

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

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