Latest Articles for Quantum Technology

A method to identify quantum states without altering them enhances secure communications.

New techniques significantly improve efficiency and performance of quantum memory using barium atomic vapor.

New hybrid circuits improve secure data transmission using entangled photon pairs.

Scientists study bosons in lattices, revealing stabilization through disorder.

This paper investigates how electric fields impact bi-SQUID performance.

Groups of emitters could transform technology through enhanced light control.

Research on creating photon pairs using Hermite-Gaussian modes reveals new quantum applications.

Researching interactions between damped harmonic oscillators with Kerr nonlinearity.

This article explores the significance of the anisotropic quantum Rabi model in quantum technologies.

Study reveals new methods to generate multi-mode entangled states using SU(1,1) interferometers.

Introducing a new design for efficient quantum networks.

A look into the latest developments in SEOM devices and their capabilities.

Nitrogen-vacancy centers offer unique applications in quantum computing and sensing.

Research explores micropillars for better light efficiency from quantum dots.

Uncovering the unique properties and stability of magic angles in twisted bilayer graphene.

New protocol enhances security and efficiency in quantum key distribution.

A new approach to managing quantum systems using probability methods.

New quantum algorithm promises faster solutions for complex graph problems.

Exploring how high harmonic generation works with different types of light.

Quantum computing shows promise in improving Metal-Organic Frameworks for carbon capture.

Research shows how easy-axis anisotropy affects magnon condensation in YIG thin films.

Learn how quantum secret sharing protects sensitive information from attacks.

New techniques using ultra-cold atoms enhance rotation sensing applications.

Research focuses on strong coupling between photons and mechanical systems for future technologies.

Exploring dual recycling to enhance weak measurements and their applications.

Exploring the integration of quantum dots and atomic ensembles for future technologies.

Examining how entanglement behavior varies in Minkowski and deformed spacetimes.

New electrically coupled cavities enhance quantum nondemolition measurements.

Researchers reveal a method to efficiently solve large linear equation systems using binary optimization.

Study of light behavior in complex systems with changing properties.

A detailed comparison of methods for studying the Kerr parametric oscillator.

Researchers develop a low-power approach to control light interactions with materials.

QMBS challenge our views on thermalization in quantum systems.

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

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

Researchers classify classical spin liquids into algebraic and fragile topological systems.

Research shows potential of drones for secure quantum communication solutions.

A new model combines searchable encryption with quantum computation for better data protection.

Exploring a modern approach to secure image sharing through quantum techniques.

Accurate placement of quantum dots is crucial for advanced light technologies.