Latest Articles for Photonics

A method for generating entangled photons to enhance secure communication.

Researchers integrate NV centers with photonic platforms, boosting quantum tech potential.

New semiconductor lasers create stable light patterns with wide applications.

Study on photonic molecules made from ring quantum cascade lasers for enhanced sensing applications.

Research on stopped polarization pulses reveals new ways to manipulate electrons in quantum wells.

New detection techniques show clear advantages in quantum sampling tasks over classical methods.

Scientists develop hyper-entangled photons for advanced communication and computing technologies.

Researchers reveal innovative methods for controlling light in complex materials.

New method improves efficiency in handling multi-photon sources.

New methods for creating complex high-dimensional GHZ states using photons are explored.

New techniques enhance light directionality using valley photonic crystals and quantum dots.

A new method improves quantum light conversion for better network communication.

Exploring the interaction of light with structured waveguides and its potential in quantum technology.

Discover how HOM interferometry is enhancing quantum sensing capabilities.

Investigating how plasmonics and 2D materials can transform technology.

New methods enhance photon routing efficiency in quantum applications.

This article discusses how lasers can form voids in materials like PDMS.

Research shows how THz fields can excite spin modes in ferrimagnetic materials.

Innovative Erbium-based lasers promise enhanced performance across multiple technologies.

A recent technique enhances phase stability in Mach-Zehnder interferometers, improving quantum communication.

New method enhances quantum communication using frequency-entangled photon pairs.

Exploring the role of distance and dimension in energy transfer between particles.

A novel approach enhances single photon production for quantum applications.

Research improves photon quality at higher temperatures for quantum technologies.

Floquet-Lieb insulators enhance light transmission across a broader range of frequencies.

Exploring high-dimensional quantum systems for enhanced communication through orbital angular momentum.

Research shows how polymer nanowires enhance photon collection from quantum dots.

Researchers examine superconductivity formed through light excitation rather than cooling.

Exploring photon addition and subtraction in quantum physics.

Research shows how argon and nitrogen affect supercontinuum light in fibers.

Research improves atom interactions, enabling long-range communication in quantum technologies.

Research highlights the potential of 2D materials for efficient entangled photon production.

Recent developments improve efficiency and integration in quantum light detection.

Examining the effects of node placement in quantum networks and their resilience to asymmetry.

Research reveals high-quality properties of AlN layers for advanced applications.

A novel approach reduces resources needed for multi-photon experiments by using time-bin encoding.

This study evaluates the performance of different waveguide designs in chiral quantum optics.

Research reveals complex behaviors in gold nanoparticle systems under light interaction.

Explore the interaction of light with plasmonic lattices for various applications.

Quantum dots enhance secure communication through advanced photon technologies.