Latest Articles for Photonics

Chirping techniques enhance the precision of measuring light interaction with two-level systems.

Researchers enhance single-photon state analysis using machine learning techniques for better accuracy.

Exploring the unique properties and applications of layered materials.

Researchers identify T center-like defects in silicon for advanced quantum applications.

New materials promise faster, efficient phase shifting devices for silicon photonics.

Researchers confirm superposition through a novel XOR game approach without recombining states.

Research reveals scandium alloyed aluminum nitride's potential in electro-optic applications.

Discover how piezoelectric actuation is shaping the future of integrated photonics.

A look at the interaction between light and quantum states.

This study highlights non-reciprocal couplings and their impact on signal amplification.

This article discusses forming crystal structures using tetravalent patchy particles.

New waveguides improve photon pair generation for quantum technologies.

Innovative techniques improve efficiency in creating graph states for quantum technology.

Scientists propose a novel way to create single mid-infrared photons for advanced applications.

Discover the role and future of nanowire lasers in technology.

Research unveils new ways to control light and matter interactions in superradiant systems.

Research reveals new potential of high-harmonic generation in quantum technology applications.

Research highlights vanadium defects as strong candidates for secure quantum communication.

Exploring shift excitons and their impact on material behavior and applications.

Researchers reveal new methods for population inversion using off-resonant light in quantum systems.

This study reveals methods to generate laser light with high topological charges using quasicrystals.

Researchers develop compact, stable frequency combs for precise measurements.

Research on cesium atoms paves pathways for quantum technology advancements.

Researchers achieve long-distance polariton propagation at room temperature using perovskite metasurfaces.

CdSe nanoplatelets offer exciting optical properties for various applications in technology.

AFC quantum memories optimize quantum information storage and retrieval.

Researchers develop multifunctional metasurfaces using phase change materials and deep learning.

This article examines a method to minimize crosstalk in quantum systems using light.

New techniques improve the quality of single-photon emission in bilayer WSe2.

Researchers develop innovative quantum dot devices for better light emission and control.

A new system enhances communication and sensing using quantum principles.

Research on quantum emitters reveals new insights into light behavior.

Explore how composite pulses enhance light control in optics and quantum computing.

New method enhances measurement of entangled light phases for advanced technologies.

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.