Latest Articles for Photonics

Research on light and quantum emitters is paving the way for advanced computing technologies.

Exploring how spin angular momentum in light affects materials and its applications.

Research improves photon extraction, enhancing quantum computing and communication applications.

Research reveals ways to utilize quantum systems for advanced applications.

New methods improve the performance of diffraction gratings for better light analysis.

Exploring the impact of quantum dots on electronics and photonics.

Researchers tackle microbunching instability using transverse Landau damping for improved light quality.

Learn how quantum scissors manipulate light for applications in quantum technology.

A method to enhance quantum sampling efficiency with squeezed vacuum states.

A look at how photonic lattices improve quantum computing efficiency.

Examining the role of pump pulse shapes in generating entangled photons.

Researchers examine lithium niobate tantalate's unique properties and potential applications.

Scientists demonstrate a new technique for generating single photons from laser light.

BS-C method combines quantum computing and classical chemistry for efficient molecular studies.

New materials enhance performance in optical switching technology.

Exploring the unique properties and applications of flat bands in light manipulation.

Analyzing entanglement properties in Gaussian Boson Sampling experiments.

Research highlights YAlO's behavior across various light frequencies for future tech applications.

Research on excitons in AlGaAs/AlAs quantum wells sheds light on their behavior.

Exploring the potential of photons in quantum computing technologies.

Examining the role of spin defects in advancing quantum technology applications.

Exploring the nonlinear effects of NV centers in quantum technology and sensing.

Research on photon generation using three-level atoms in cavities under various conditions.

Single-photon sources are key to advancing secure communication and quantum networks.

Explore how temperature and electric fields affect HgCdTe's behavior in infrared applications.

This article explores high-harmonic generation in zinc oxide under intense laser pulses.

Exploring photon blockade and its role in advanced optomechanical systems.

Research focuses on generating identical single photons for better quantum technologies.

Researchers enhance silicon waveguides using picosecond laser technology for improved data transfer.

This article explores the unique properties of alkaline earth atoms for technology applications.

New methods improve TFLN device fabrication for photonics applications.

Research on reliable two-photon quantum gates offers new potential for quantum computing.

Our research enhances photon indistinguishability, vital for quantum computing applications.

A new approach considers pump depletion in generating squeezed states.

G centers in silicon show promise for advancements in quantum technology.

A new approach reveals how disorder affects topological materials.

Researchers improve Kerr-cat qubits, enhancing reliability for future quantum computers.

Research reveals challenges in enhancing two-photon absorption using entangled photon pairs.

Research reveals new methods for manipulating light and matter interactions at room temperature.

Researchers study plasmonic crystals for advanced sensing and electronic applications.