Latest Articles for Quantum Technology

Exploring high-dimensional quantum systems for enhanced communication through orbital angular momentum.

Research highlights methods for creating boron vacancies in hBN and their potential uses.

Study reveals complex interactions in Rydberg atoms leading to non-ergodic behaviors.

Research shows how polymer nanowires enhance photon collection from quantum dots.

A look into new methods enhancing quantum parameter estimation efficiency.

This article examines how particles behave and interact in quantum systems.

Quantum switches enhance connections in the upcoming quantum internet through entanglement.

Study reveals how electric fields prevent energy loss during molecular collisions.

Recent developments improve efficiency and integration in quantum light detection.

Discover how quantum computing enhances clustering methods for better data analysis.

Research reveals how Rydberg atoms respond to dual-tone RF fields.

Study reveals how temperature and density affect atomic interactions in dense vapors.

This article examines how measurements influence particle behavior in spin systems.

This research studies how entanglement changes over time in many-body systems.

Research reveals effects of turbulence on quantum light transmission quality.

New techniques enhance the generation and control of bright squeezed vacuum for quantum applications.

A look into how quantum and classical methods can effectively transfer information.

A novel approach reduces resources needed for multi-photon experiments by using time-bin encoding.

A look at polarization issues and advances in optical fiber technology.

Examining how wall interactions affect atomic polarization in vapor cells.

Explore the intriguing behavior of neutrinos and their role in quantum physics.

Researchers improve quantum routing using error mitigation techniques for better performance.

Exploring superconductors and their impact on technology through advanced simulation techniques.

Quantum dots enhance secure communication through advanced photon technologies.

Research enhances light emission from quantum dots for future technologies.

Quantum repeaters are key to advancing communication and information systems.

A new method cuts the number of detectors needed for secure communication in QKD.

Helium ion irradiation boosts the performance of superconducting nanowire single-photon detectors.

High-energy electron irradiation increases NV center density in diamond for better sensing.

QRNGs use quantum mechanics for true randomness, vital for secure digital communication.

Topological photonics offers new ways to control light using mathematical principles.

This study examines the benefits of Er-doped yttria for quantum information systems.

Research on light's interaction with mechanical systems opens new technology paths.

This study presents a method for adaptable quantum circuits using light.

New methods improve speed and efficiency of silicon photon sources for quantum technology.

Robots improve the accuracy and efficiency of quantum sensor operations.

Exploring how magnetic materials influence non-magnetic layers, particularly graphene.

Quantum batteries present a new way to store and retrieve energy efficiently.

Using quantum computing to tackle the maximum cut issue in graph theory.

Research focuses on triplet point defects in 2D materials for advanced technologies.