Latest Articles for Photonics

Research focuses on optimizing nanoantennas to reduce back-scattering and improve light manipulation.

Exploring the unique optical properties of bilayer graphene and their applications.

Research reveals methods to control charged localized excitons with strain tuning in two-dimensional materials.

Researchers create efficient waveguides for advanced optical devices using fluoride glass.

New methods for generating entangled photons improve performance and applications in quantum technology.

New findings shine light on PHEOD solitons and their applications.

New integration methods enhance single-photon detector applications in quantum technologies.

Exploring photon pair generation methods in III-V semiconductor microrings for quantum technologies.

New methods for distinguishing quantum states show promise without photon detection.

Exploring the innovative world of photonic systems and time-modulated materials.

A new method improves boson sampling efficiency with cold atoms and squeezed light.

Exploring the potential of ferroelectric nematic liquid crystals in technology.

Scientists explore new quantum states to improve measurement sensitivity.

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

A fresh approach to studying undetected photons using visibility Stokes parameters.

New compact coupler design improves efficiency and minimizes size in photonic applications.

Exploring magnon dynamics in antiferromagnets for advanced technology applications.

New methods improve squeezed light generation for quantum technologies.

Researchers are developing methods to create quantum light using free electrons.

Research improves cycling endurance of GSST phase change materials in optical applications.

Exploring the effects of time-varying properties in quantum electrodynamics.

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

New techniques in optics enhance light frequency conversion efficiency.

Researchers are developing methods to transfer entanglement from Rydberg atoms to photonic states.

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

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

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

This study reveals insights on electron behavior in undulators and their photon emissions.

Explore the unique property of entangled bi-photons and their geometric phases.

New methods improve light manipulation with lithium niobate structures.

Research focuses on excitonic BECs and their unique properties using two-photon measurements.

A look at methods for improving photon distribution in quantum communication systems.

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

Research reveals unique electronic properties of 1T-ZrTe for future technologies.

Research on using lasers to accelerate electrons with dielectric structures shows great promise.

Explore the role of excitons in quantum dots and their unique behaviors.

Microlasers show promise for various applications, driven by innovative designs and components.

Learn to create a light converter for advanced applications using common optical components.

Discover how active cavities transform laser capabilities for various applications.

Discover the impact of nanowires on technology and communication.