Latest Articles for Photonics

Research focuses on strong coupling between photons and mechanical systems for future technologies.

Exploring the performance gains of Boson Sampling simulations using data-flow engines.

Research reveals how edge modes maintain wave direction despite disturbances.

Discover the fascinating world of Floquet edge solitons and their unique properties.

Research improves biphoton generation for quantum technologies using nonlinear photonic circuits.

Explore numerical optimization techniques to enhance light manipulation in nanophotonic structures.

New electrically coupled cavities enhance quantum nondemolition measurements.

Study of light behavior in complex systems with changing properties.

New insights into the interaction between TMDCs and plasmonic crystals.

GeSn offers new possibilities for electronics using light instead of electricity.

New design offers efficient small lasers using quantum dots for communication and sensing.

Researchers improve cluster state generation in quantum computing using high-dimensional spatial encoding.

Research focuses on enhancing LST performance with Hamamatsu SiPMs.

Researchers develop a low-power approach to control light interactions with materials.

Innovative photon pair source enhances secure communication in quantum technologies.

Research reveals how vortex beams change upon reflection.

Accurate placement of quantum dots is crucial for advanced light technologies.

Research focuses on improving controlled photon production for advanced quantum applications.

Quantum dots show promise in technology with focus on fine structure splitting.

Research highlights improvements in light-emitting sources using circular Bragg resonators.

Researchers enhance measurement techniques in photonic lattices using innovative methods.

Exploring the behavior of surface plasmon-polaritons in graphene with gain and loss.

Research reveals a new method for high-frequency entangled photon pairs.

A new wavelength-selective switch enhances data routing capabilities using silicon photonics.

Research on metasurfaces enhances light control for efficient displays and lighting.

Techniques to reduce errors and maintain quantum information integrity.

Research reveals new insights into light-emitting properties of OCCs in carbon nanotubes.

New quantum repeater methods improve long-distance secure communication.

Explore the workings and benefits of silicon photomultipliers in various fields.

Discover how topological quantum devices enhance quantum technology applications.

Researchers manipulate photon properties using Rydberg atoms for quantum applications.

New method harnesses liquid crystals for advanced quantum light generation.

Improving the success rates in quantum state transfer across hybrid quantum networks.

Research shows memristors can emulate neuron behavior by emitting light during electrical switching.

Researchers improve green light production with innovative Kerr microresonators.

This article explores how high-energy photons affect quasiparticle density in superconductors.

Exploring the synergy of silicon photonics and neural networks for efficient information processing.

Examining how laser pulses change solid materials and their properties.

This new method simplifies laser integration across various materials, enhancing performance in photonics.

Research reveals new methods for directing light from quantum dots into optical fibers.