Latest Articles for Optics

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.

Investigating quantum effects in light behavior at material surfaces.

A novel approach to camera calibration using collimators for better accuracy.

A study reveals new patterns in light through polarization self-rotation.

Researchers study light flow in nonlinear crystals, revealing unique soliton dynamics.

Research on excitons and magnons in CrSBr reveals new optical properties.

Researchers are advancing techniques for creating unique vortex beams for various applications.

Researchers develop a simplified way to create polarized attosecond pulses using mixed gases.

Exploring the potential of phononic frequency combs in molecular systems and their applications.

Using perfect optical vortex beams enhances high-order harmonic generation efficiency.

Microlasers show promise for various applications, driven by innovative designs and components.

Explore the unique properties and potential applications of surface exciton polaritons.

Scientists study dielectric materials to improve instruments for exploring the universe.

Learn how two mirrors can redirect light precisely to a target.

Discover the potential of exciton-polariton lasers in today's science.

Innovative techniques improve silicon nitride chip quality and performance.

Explore how dipoles interact with light in fascinating ways.

How nanomaterials respond to light opens new technology paths.

Research reveals unique properties of ZnTe under intense terahertz exposure.

Photonic lanterns organize light waves for diverse applications effectively.

Topology Bench offers vital data for improving optical networks.

Learn how temperature control enhances laser stability using spectral holes in crystals.

Exploring interactions between quantum emitters and surface plasmons for future technologies.

New methods for creating reliable quantum gates using light show promise for computing.

Explore the fascinating world of light and its intriguing properties.

Scientists enhance the delivery of light in complex materials for medical advancements.

A new method reduces backscattering to improve micro-ring cavity performance.

A look at tiny structures that manipulate light in innovative ways.

Discover how light's behavior impacts technology and biology.

Scientists find a new way to measure optical linewidths using faint light.

Exploring how light and matter interact with unique behaviors based on chirality.

Discover how nonlinear techniques improve wavefront sensors for better imaging across various fields.

A new method simplifies studying light in complex materials.

Explore how light scatters and its importance in various fields.

Discover the unique properties and applications of Laguerre-Gaussian light beams.