Latest Articles for Optics

Study shows how colloidal particles influence chiral liquid crystals' alignment and properties.

Near-field optics reveals new possibilities for sensors, imaging, and communication technologies.

Explore the significance of complex Ginzburg-Landau equations across various scientific fields.

A look into quantum spectroscopy and its impact on material studies.

Exploring the role of quantum mechanics in improving polarimetry techniques.

New photonic crystals improve light behavior, opening doors to innovative technologies.

Discover how time-varying media affect the behavior of waves.

Research shows how light affects particles in liquid crystals for smart material applications.

Learn how octupolar tensors impact various scientific fields, especially liquid crystals.

Research on two-phase metamaterials enhances understanding of resonances and their applications.

Exploring unique properties and applications of stealthy hyper uniform materials.

Exploring the unique light properties of buckled monolayers and their technological implications.

Research shows how unique properties in graphene junctions improve light interactions.

New insights into non-Hermitian systems reveal fascinating fractal patterns and exceptional points.

New AI techniques improve image clarity in challenging conditions.

Researchers develop a new method for high-resolution imaging without sample interaction.

A look into structured light beams and their polarisation patterns.

Exploring the behavior of molecular aggregates under light exposure.

A look into how intense laser light interacts with crystals to produce new frequencies.

Research explores structured random light for innovative number factorization methods.

This article discusses how dense suspensions affect light behavior.

Research shows how electric fields influence proton diffraction patterns.

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

MPLC transforms light behavior, enhancing telecommunication efficiency and more.

Researchers are developing a stable superradiant laser for precise applications.

Exploring how strong light influences materials at the quantum level.

Study of light's interaction with noble gases reveals electron behavior.

A technique that enhances the transfer of thin films for advanced optical devices.

Pulsed lasers improve measurements while preserving equipment integrity in scientific research.

Researchers use advanced models to improve gold nanorod synthesis methods.

This article discusses how light can change crystal arrangements and their properties.

Exploring quantum signal processing and its application to continuous variables in computing.

Exploring wave behavior through the nonlinear Schrödinger equation in various fields.

Insights into how light interacts with materials reveal important optical properties.

An overview of dissipative solitons and their significance in various fields.

Learn about atomic vapor filters, their types, and how to build one.

New fiber-tip design improves terahertz radiation efficiency and portability.

Research explores light-matter interactions through new theoretical and experimental approaches.

Research reveals new paths in energy transport through photonic molecules and synthetic dimensions.

New insights into wave dynamics through WKI-SP equations and soliton solutions.