Latest Articles for Photonics

New techniques allow for precise control of thermal emission using graphene.

Research highlights the impact of laser imperfections on high-order harmonic generation.

Research reveals new methods to control excitons using electric fields in two-dimensional materials.

A new optical switch enables fast light signal control with single photons.

New methods improve the measurement of chiral drugs for better patient care.

This article discusses the relation between Berry curvature and excitons in material science.

New findings on Brillouin dynamic gratings in silicon nitride waveguides enhance microwave photonics.

Exploring excitons, spin states, and their impact on semiconductor properties.

Chaotic microresonators enhance decision-making in the Multi-Armed Bandit problem.

Discover the significant impact of hybrid nanocavities in photonics and advanced technology.

This article explores how light's spatial properties influence four-wave mixing processes.

Researchers enhance surface waves using quantum wells for better light applications.

New techniques improve generation of entangled photons for quantum technologies.

Exploring how exceptional points enable unique light transmission patterns.

Exploring the role of topology in light propagation through unique materials.

Exploring the effects of dipole interactions in light-responsive 2D materials.

A new method improves light delivery to trapped ions using waveguides.

Exploring how twist angles affect the light interactions in TMD materials.

Understanding weak coherent pulses is key to enhancing quantum communication security.

Researchers improve erbium placement in titanium dioxide for better quantum applications.

New techniques create band gaps in exciton-polariton systems using slab waveguides.

Scientists study how light alters the conductivity of 2-MoTe material.

Optical vortex droplets show promise in advanced imaging and communication technologies.

A novel laser technology that advances light manipulation and applications.

New techniques significantly improve efficiency and performance of quantum memory using barium atomic vapor.

New fabrication techniques improve photon pair production in waveguides.

New hybrid circuits improve secure data transmission using entangled photon pairs.

Examining the effects of photons on edge and corner states within a cavity.

Research reveals complex interactions between light and artificial atoms in waveguides.

Learn how to enhance mixing processes in advanced lattice structures.

Groups of emitters could transform technology through enhanced light control.

Research on creating photon pairs using Hermite-Gaussian modes reveals new quantum applications.

New method improves vortex phase mask design efficiency using machine learning.

Research explores micropillars for better light efficiency from quantum dots.

A concise overview of photon-pair sources and their evaluation in quantum optics.

New OPO design allows efficient frequency combs at lower energy levels.

Research showcases efficient phase modulation using warm rubidium vapour for quantum computing.

Learn how microcavities affect entangled photons in spectroscopy.

Research explores mode-locking without traditional absorbers using microresonators.

MECSELs offer tunable, cost-effective lasers for diverse applications.