Latest Articles for Optics

A novel approach to measure weak light states improves technology applications.

Examining core-shell nanoparticles for improved drug delivery and measurement techniques.

New techniques in controlling particles offer insights into quantum mechanics and technology.

A study of light interactions with bismuth surfaces through circular dichroism.

High-power femtosecond lasers enable new material interactions and scientific breakthroughs.

Research reveals new ways to control light using organized atoms in solids.

Research reveals new methods to control chiral light with nanoparticles for advanced technology.

Researchers improve detection of tiny particles using light for advances in physics.

This article examines obstacles in thermal infrared observations and their solutions.

Y-couplers are important devices for manipulating light in various advanced applications.

New findings show superfluorescence in hybrid perovskite films at room temperature.

A new composite AOM setup enhances light routing efficiency beyond 99%.

New method enhances measurement of optical fields in three-dimensional space.

New light beams could enhance communication systems and material manipulation.

Rydberg atoms show promise for advancements in quantum information science and technology.

Examining chiral properties in polaritonics using GaAs quantum rings and chiral cavities.

Exploring unique behaviors in non-Hermitian systems through exceptional points.

Researchers improve force measurement using levitated dielectric objects and light interactions.

Exploring atomic arrays' behavior under low light conditions reveals surprising interactions.

Researchers harness light and sound to create efficient quantum connections.

Exploring methods to improve image quality affected by atmospheric turbulence.

New advancements in optics focus on non-reciprocal devices for improved communication and sensing.

The SSH model reveals unique quantum behaviors through edge states and tunable beam splitters.

New method simplifies chiral light generation using twisted bilayers.

New technique improves imaging resolution in solid materials using light polarization.

Explore the unique properties and applications of optical quasicrystals.

Discover new methods for separating and measuring chiral particles.

Research examines solitons' behavior under varying energy conditions in optical systems.

Research on multi-color solitons brings new technology possibilities with frequency combs.

Research highlights etching methods and uses of PIN-PMN-PT crystals in devices.

New method enhances light pattern creation for optical applications.

Researchers optimize nanostructures to manipulate light behavior using time modulation.

Research focuses on improving Zernike wavefront sensors for various applications.

New interferometer design enhances light measurement precision and flexibility.

Explore how fast-moving objects appear differently due to the Terrell effect.

A novel method improves sensitivity by cutting down scattered light noise.

New methods enhance detection of quick, small optical events with improved efficiency.

Examining how laser light behaves in dense atomic gases reveals surprising outcomes.

Discover how quantum geometry influences the behavior of materials.

Researchers tackle motional dephasing in quantum technologies using optical dressing.