Latest Articles for Quantum Technology

New low-loss interface improves superconducting circuit performance for quantum technologies.

Polar metals reveal interesting electronic behaviors under magnetic fields.

Quantum methods enhance the accuracy of pattern recognition, especially for handwritten digits.

Research reveals how point defects in hBN can benefit advanced technologies.

Driven superradiance shows how atoms work together to emit light more effectively.

Learn about quantum speed limits and their significance in quantum technology.

This research examines how thermal vibrations affect light behavior in quantum fluids.

New insights on boron and aluminum doping effects on silicon's electronic structure.

Researchers assess the potential and limits of non-Hermitian quantum sensors in precision measurement.

Analyzing energy transfer in quantum systems with strong system-bath interactions.

Examining the link between Wigner functions and density in quantum systems.

Research explores coexistence of quantum and classical signals in fiber optics.

A fresh method for enhancing quantum measurement precision using cyclic nonlinear interferometry.

Researchers achieve remote preparation of optical cat states, enhancing quantum access for various applications.

A look into the complex behaviors of spin glasses and their quantum properties.

New methods improve management of quantum systems, addressing challenges in noise and efficiency.

A method to certify quantum frequency converters without strict calibration.

Research shows how electric fields influence proton diffraction patterns.

A new qubit design enhances stability and reduces noise in quantum computing.

Researchers integrate NV centers with photonic platforms, boosting quantum tech potential.

Investigating how quantum states influence one another across distances.

A new approach enhances control over the Lamb shift in quantum technology.

A closer look at bipartite states with maximally mixed marginals in quantum systems.

This article examines behaviors in physical systems with long-range interactions and conserved multipoles.

New techniques improve nanowire circuits for quantum technology applications.

A look at the promising Quantum Capacitance Parametric Amplifier technology for various applications.

Research introduces advanced protocols using entangled qubits for secure distance verification.

New methods prepare stable quantum states using engineered dissipation techniques.

Researchers develop innovative techniques for generating nuclear spin cat states.

New techniques enhance light directionality using valley photonic crystals and quantum dots.

A new thermal state improves temperature readings in quantum systems.

A new method improves quantum light conversion for better network communication.

Researchers improve variational methods to tackle challenges in quantum computing.

A new method enables quantum and classical channels to coexist securely in fiber optics.

Evaluating chlorine vacancies in SiC for future quantum applications.

Exploring the impact of environmental interactions on quantum systems.

An in-depth look at encoding methods for discrete quadratic models.

New methods are needed to improve accuracy in quantum sensors amid noise challenges.

Exploring the role of quantum computing in solving optimization problems effectively.

New methods improve connections between quantum systems using surface plasmon polaritons.