Latest Articles for Optics

Super-thermal light offers promising improvements in imaging techniques for sensitive samples.

A new cavity approach allows open access while achieving strong coupling with molecules.

Innovative methods improve the design and manufacturing of optical devices.

Examining new insights into atomic interactions using nonlinear sub-Doppler techniques.

RIGID uses machine learning for efficient metamaterial design with minimal data.

Research shows optical cavities can change chemical reaction behavior for improved efficiency.

Exploring unique states of light through strong laser interactions with materials.

Microcavities reveal unique light behaviors, impacting technology in significant ways.

Research focuses on converting microwave and optical signals using rare-earth-doped crystals.

Using machine learning to improve optical tweezers for precise particle rearrangement.

Exploring fractional wave models and solitons in physics.

Explore the fascinating world of optomechanical interactions and their applications.

Researchers adjust squeezed vacuum states for improved quantum communication and measurement.

Harnessing squeezed states can improve detection in gravitational waves and quantum communication.

New findings on exceptional points reveal intriguing behaviors and their connections to symmetry.

Discover how topological quantum devices enhance quantum technology applications.

New method harnesses liquid crystals for advanced quantum light generation.

This article discusses methods to enhance telescope image quality by addressing petal mode distortion.

Innovative techniques to enhance magnetic fields using laser beams and nanoantennas.

Exploring the properties and applications of stealthy hyperuniform materials in technology.

Explore how infinitesimal and infinite numbers shape mathematical modeling in various fields.

Researchers improve Laue lens design for clearer high-energy ray imaging from space.

A closer look at the behavior and applications of optical vortices.

A look into the unique properties of ferrites and their applications.

Researchers improve green light production with innovative Kerr microresonators.

Research reveals insights on NV centers and their charge cycling under different light conditions.

A faster approach for modeling light in biological tissues enhances medical imaging.

Techniques to enhance resolution for closely spaced light sources.

New method enhances precision of celestial measurements with CCDs.

This study examines how light spreads in materials with scattered beads.

Researchers demonstrate methods to create mass in quasiparticles using optical gain and loss.

An overview of solitons and vortices in discrete and semi-discrete physical systems.

Discover how neuromorphic photonic computing can enhance AI efficiency and speed.

Exploring how cavity magnomechanical systems generate and manage entropy through energy interactions.

Researchers explore how structured light interacts with spin for innovative applications.

Study reveals how cavities influence chemical reactions through temperature and light.

Investigating how magnetic fields alter light behavior in unique Dirac materials.

This article explores degenerate soliton groups and their significance in nonlinear optics.

Researchers find a way to guide light through opaque materials using a core structure.

Researchers develop a model for optical vortex beams in anisotropic materials.