Latest Articles for Entanglement

Study shows how entanglement can return in qutrits despite challenges.

This article discusses soft-dropout to improve QCNN performance and reduce overfitting.

Discover how perfect tensors influence interactions in the quantum world.

Metts revolutionizes the simulation of quantum systems at low temperatures, enhancing research efficiency.

Exploring the potential of quantum mechanics in modern voting.

Introducing a new design for efficient quantum networks.

Exploring the two-worlds interpretation and its implications for quantum behavior.

Exploring the dynamics of non-Hermitian quantum mechanics and its implications in research.

This paper explores how to manipulate graph states using local operations.

Exploring the flat /BMSFT model's implications for entanglement and gravity.

A look at fragmented approaches to enhance quantum computing efficiency.

Exploring the role of synchronization in quantum mechanics and its applications.

This study uses neural networks to analyze thermal states in quantum systems.

This article explores how mirror movement affects entropy in quantum systems.

Quantum thermal machines blend quantum mechanics with practical energy solutions.

A study of how external influences impact entanglement in Ising chains.

Examining how entanglement behavior varies in Minkowski and deformed spacetimes.

A look into the evolution of quantum states and their complexities.

An overview of superstring theory, focusing on time-dependent environments and thermal dynamics.

Researchers investigate quantum entanglement using larger mechanical objects and light interactions.

Scientists study how decoherence affects the stability of topological states in quantum systems.

QMBS challenge our views on thermalization in quantum systems.

Study reveals how observing free fermions influences their quantum dynamics.

An overview of key quantum concepts and their significance in technology.

Study highlights correlations and dynamics in many-body quantum systems.

A new method for manipulating edge states enhances quantum operations and information transport.

Research reveals key findings on electron states from helium and argon.

Researchers introduce tools to analyze filament complexity in materials.

Examining tether entanglement challenges and new solutions for tethered robots.

Study reveals how continuous measurement affects quantum particle behavior.

A look into the interplay between light and mechanical movement in quantum mechanics.

Exploring Schrödinger cat states and their impact on quantum technologies.

A program aims to spark interest in quantum computing among high school students and teachers.

A study on diffusion coefficients and entanglement in coupled quantum oscillators.

Investigating how gravity influences quantum entanglement and particle behavior.

Exploring the advantages of qubit communication in modern information transfer.

A study on the figure-8 annulus and its implications in quantum physics.

Quantum algorithms offer new ways to analyze fluid dynamics problems efficiently.

Recent progress in entanglement swapping enhances quantum network capabilities.

This study analyzes how measurements affect the behavior of quantum states in chaotic systems.