Latest Articles for Photonics

New materials improve light management in diverse technologies.

A novel technique enhances the stability of terahertz quantum cascade lasers.

A new method enhances SiN circuits for better performance and scalability.

New methods for efficient quantum communication over long distances are being developed.

Exploring helium matter waves' impact on nanophotonic designs through h-BN holes.

Innovative electron sources improve microscopy and lithography through noise reduction and precise measurements.

Examining how thermal noise affects optical experiment accuracy.

Combining topology optimization and machine learning for efficient photonic component design.

Exploring the role of quantum repeaters in enhancing long-distance quantum communication.

Research uncovers how strain and substrate influence second harmonic generation in MoSe monolayers.

Exploring the role of photon interference in modern quantum communication systems.

This article explores the interaction of a two-level atom with cavity light.

Improving phase estimation using quantum technology enhances measurement precision.

Research on vortex-antivortex structures shows promising stability for optical applications.

Collective transition quenching improves control over quantum systems for various applications.

A new method enhances the stability of nano-lasers for practical use.

Exploring innovations in secure information transfer using quantum mechanics.

Researchers use neural networks to better control and visualize complex laser systems.

A novel design streamlines the creation of polarization-entangled photons for quantum applications.

Researchers study unique material states that alter electronic properties.

This article explores the role of photon-pair generation in quantum systems.

New findings reveal strong light properties of chiral carbon nanotubes.

Exploring the unique behaviors of light in topological insulators and their applications.

A look at passive conditional gates for efficient photonic quantum computing.

New methods improve light manipulation in nanostructures for better energy efficiency.

Exploring light behavior in giant Kerr cavities and their technological implications.

A study on how waveguides enhance light emission from quantum emitters.

New findings on Bell states improve detection in noisy environments.

Exploring atom-light interactions through the three-level ladder Jaynes-Cummings model.

Exploring the use of BICs in advanced photonic applications.

J-PET scanner improves PET by measuring photon polarization for better diagnostics.

Enhancing quantum dot light for improved communication in quantum networks.

Uncovering how light can be controlled for advanced technologies.

Research highlights the promise of lead halide perovskites for efficient solar cells.

Recent developments improve efficiency and applications of SHG in various technologies.

Research focuses on creating efficient high-dimensional maximally entangled photon pairs.

A new method improves the design process for compact light-control devices.

Enhancing methods to detect photon triplets amidst noise challenges.

Hexagonal boron nitride is vital for the future of quantum technologies.

Study reveals efficient beamsplitters using the Talbot effect and whispering gallery modes.