Latest Articles for Quantum Technology

Researchers are enhancing diamond defects for quantum computers and sensors.

Exploring how thermal environments and filters impact squeezed states in quantum mechanics.

Quantum networks connect devices using entangled states for secure communication and processing.

New method enhances control over photon behavior in quantum technology.

Discover how light influences magnetization in Rydberg atoms and doped semiconductors.

Combining quantum security with machine learning improves speed and efficiency in communication.

Exploring new economic models for data using quantum communication principles.

Examining how defects in talcum can influence its use in advanced technologies.

Combining Federated Learning and quantum technology promises safer data handling in AI.

Research reveals new methods for secure and covert messaging using light.

Examining various methods for accurate temperature estimation with NV-diamond technology.

Research reveals efficient control of NV centers using magnetoelastic waves.

Silicon defect emitters show potential for quantum communications at telecom wavelengths.

Researchers explore the link between altermagnetism and superconductivity, revealing unique properties.

New methods improve squeezed light generation for quantum technologies.

Quantum batteries could transform energy storage with advanced efficiency.

Discover the unique properties and potential applications of altermagnets.

Explore how memory influences the behavior of quantum systems.

Exploring the relationship between multipartite entanglement and nonlocality using GGHZ and maximal slice states.

Exploring nonequilibrium behaviors in quantum systems reveals complex dynamics and thermalization processes.

Research highlights the potential of silicon-vacancy centers in diamonds for quantum applications.

Erbium-based quantum memory shows high efficiency in storing and recalling data.

Researchers enhance magnetic sensing using machine learning with NV centers.

A new method improves single-photon sources for secure quantum communication.

New techniques improve simulations of the Schwinger model using quantum computing.

Examining molecular magnets' role in advanced sensing and quantum technology.

New techniques in optics enhance light frequency conversion efficiency.

Learn how CVQKD uses light waves for secure communication.

Quantum repeaters are key to establishing long-distance quantum communication networks.

New methods improve calculations for excited states in materials using GPUs.

Study reveals important insights into single-photon behavior in whispering gallery resonators.

Exploring the potential of quantum dots in nanowires for future technologies.

New techniques enhance imaging of microwave magnetic fields using NV centers in diamonds.

Analyzing performance and challenges in distributed quantum sensing networks.

Researchers investigate the dynamics of open quantum systems using Floquet theory.

An overview of the interplay between integrable Landau-Zener models and KZ equations in quantum mechanics.

Researchers propose a novel approach to control photon polarization in quantum devices.

New methods use electric fields to manipulate materials while maintaining stability.

Exploring the design and noise characteristics of SQUID arrays in magnetic sensing.

Scientists study photon production in the solar corona and its detection from Earth.