Latest Articles for Photonics

Researchers are enhancing quantum emitters in silicon for quantum computing and communication.

A new microring modulator design enhances performance for faster communication.

Research on photon generation using quantum dots for secure communication.

Research reveals new methods to analyze the unique properties of space-time crystals.

Research shows how spins in materials influence light properties under magnetic fields.

Research reveals atomic-level details of promising red phosphor SrLiAlN:Eu for improved lighting.

A simple approach to measure Kerr index without advanced detectors.

Researchers tackle quantum memory to enhance secure communication using entangled photons.

Learn about the unique properties and applications of multi-Weyl semimetals.

Research reveals new potential in quantum optics using silicon-vacancy centers in nanodiamonds.

New methods using GaAs WGMRs promise improved THz radiation applications.

Researchers investigate mobility edges in novel quasiperiodic mosaic lattices.

New technique improves efficiency of single-photon emission from quantum dots.

Investigating quantum walks with fractals may change our approach to quantum mechanics.

New techniques improve the efficiency of photon-number detector characterization.

An overview of the Kerker phenomena and their implications in optics.

Research reveals new ways to control light using advanced photonic crystals.

Research reveals how giant atoms affect photon interactions in waveguides.

Research aims to improve the quality and purity of single photons for advanced applications.

New model enhances understanding of light behavior in integrated LNOI networks.

Research sheds light on materials' interaction with light and electrons.

A look into how noise affects synchronization in quantum light generation.

Scientists study how light affects material properties and electron movements.

Lithium tantalate offers a cost-effective solution for advanced photonic integrated circuits.

Researchers combine techniques to study semiconductor membranes' light emission and heat management.

New methods for electric field manipulation using nonreciprocal materials show promising potential.

A compact solution for efficient light generation in optics.

Research reveals new details about photon condensation using VCSEL technology.

Study reveals how TiO₂ behaves under intense laser light, impacting future optical technology.

New techniques improve photon pair generation for quantum communication and computing.

Research on alumina waveguides leads to improved UV light transmission.

Indirect excitons in van der Waals heterostructures show promise for future quantum technologies.

Exploring how bound states enhance light manipulation in photonic structures.

An overview of the Xatu code for studying excitons in materials like hBN and MoS.

Researchers enhance electron spin coherence with all-optical cooling techniques in quantum dots.

Researchers create a heralded 3-GHZ state using photons for quantum computing.

Exploring the dynamics of light patterns in microresonators using dissipative solitons and breathers.

Study of NV centers offers insights into quantum technology applications.

Research focuses on optimizing photon collection for scalable quantum systems.

Study reveals strong coupling between light and spin systems using non-Hermitian methods.