Latest Articles for Optics

Researchers find effective method for synchronizing Kerr solitons using auxiliary lasers.

This study examines the stability of dark solitons in nonlinear Schrödinger equations.

Research reveals how moving electrons affect light interaction in graphene.

Research focuses on optimizing nanoantennas to reduce back-scattering and improve light manipulation.

Exploring how thermal environments and filters impact squeezed states in quantum mechanics.

Research reveals new insights into ferroelectric properties in transition metal dichalcogenides.

New findings shine light on PHEOD solitons and their applications.

New integration methods enhance single-photon detector applications in quantum technologies.

Entangled two-photon absorption offers new methods to study plasma dynamics.

New method enhances control over photon behavior in quantum technology.

Research uncovers robust behaviors at exceptional points in quantum systems.

New technique improves quantum communication through channel-selective frequency conversion.

New techniques improve light simulation in advanced materials with complex structures.

New approaches improve light diffraction simulations with tensor train decomposition.

Research confirms conservation of angular momentum in light at the single-photon level.

A new method offers deeper insights into how light interacts with materials.

A new two-step method improves laser light analysis for various applications.

Researchers improve imaging quality in Raman microscopy using adaptive optics.

New technique simplifies the creation of GKP states in optical systems.

Explore how hitching impacts light beams in optical amplifiers for quantum imaging.

New lithium niobate device improves light management in communication technology.

A look into the KdV equation and its implications for wave behavior.

This research explores the use of optical levers for highly accurate measurements.

A look at the Helmholtz equation and Newtonian potential in wave analysis.

New methods reveal how light interacts in dense atomic clouds.

Learn how coherent states combine properties of classical waves with quantum behaviors.

Light offers new ways to control magnetism in materials for advanced technology.

A new method improves precision in optical measurements using classical light sources.

New insights into how materials react to changing light conditions.

Real-time control systems enhance image clarity in adaptive optics for astronomy.

Research highlights the potential of silicon-vacancy centers in diamonds for quantum applications.

Research reveals quantum effects crucial for high-harmonic generation advancements.

A look at non-Hermitian systems and their role in signal amplification and material properties.

New techniques in optics enhance light frequency conversion efficiency.

This study examines how temperature affects mechanical losses in Eu:YSO for laser applications.

NEXCERA shows promise for improving ultrastable laser cavities with low thermal noise.

Learn how Zernike Polynomials enhance optics and astrophysics.

New methods improve light manipulation with lithium niobate structures.

New methods lead to tiny machines with great potential.

Bilayer metasurfaces improve light control for various applications.