Latest Articles for Quantum States

This article examines work extraction from quantum systems, focusing on integrable and nonintegrable states.

Examining how quantum measurements shape our learning strategies.

This article discusses a new method for verifying location using quantum physics.

A new method enables easier detection of light superpositions using a single photon detector.

Examining how independent actions by quantum agents affect shared systems.

This article discusses generating quantum channels using discrete functions for better quantum computing applications.

A new method streamlines measuring entanglement and coherence in quantum systems.

This article discusses a new method for measuring quantum states with metasurfaces.

Exploring neural networks' role in representing complex quantum many-body states.

This article examines cosmic acceleration and its implications through the lens of Lovelock gravity.

Exploring how randomness can influence success in quantum games and tasks.

A look into quantum mechanics and optimal transport for better science understanding.

ShadowNet combines classical shadows and neural networks to enhance quantum system learning.

A new approach enhances synchronization in quantum communications despite high data loss.

Introducing a unique method for representing quantum states in time and space.

Researchers uncover how light pulse shapes affect quantum states and measurements.

A method for identifying quantum states and measurement noise in quantum systems.

An exploration of unique behaviors and interactions of quantum vortices in fluids.

A look at how entangled and separable states are defined in quantum physics.

Quantum oscillators enhance memory and computing through unique quantum states.

Exploring how ICO improves accuracy in quantum measurements amid noise.

Research on quantum data compression aims to optimize storage and transmission.

Quantum pseudorandom state scramblers enhance random state generation in quantum computing.

Researchers improve quantum circuit performance using innovative methods for better results.

A fresh approach to enhance energy configurations for quantum states involving qudits.

Exploring the relationship between incompatibility and CP-divisibility in quantum systems.

Learn quantum optics basics and perform calculations using MATLAB.

This article discusses using deep learning for reconstructing quantum states affected by noise.

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

Examining the relationship between quantum states and classical data modeling techniques.

New methods using qudits enhance measurement precision without complex entanglement.

Researchers use machine learning to improve the preparation of quantum spin squeezed states.

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

Research on cooling magnetic domain walls could improve quantum computing efficiency.

This article examines how quantum switches help improve Grover's search algorithm's performance against noise.

New insights into exceptional points enhance quantum sensing and technology applications.

Quantum zero-knowledge proofs may change how we ensure online privacy and security.

Exploring connections between quantum mechanics and space-time for deeper insights.

This article discusses a fresh approach to efficiently sample quantum states using tensor networks.

Examining how to achieve rapid transformations in quantum systems effectively.