Latest Articles for Optics

Research highlights interactions between MoSe2 and CrSBr for advanced technology applications.

Research reveals new methods to improve light absorption using optical vortices.

Research explores polaritons and their unique properties in specially designed cavities.

New research reveals effects of polarization aberrations on telescope designs.

New OPO design allows efficient frequency combs at lower energy levels.

Research unveils unique behaviors of cold atoms influenced by external light fields.

Exploring enhanced phase sensitivity with squeezed Kerr states in quantum interferometers.

Exploring how high harmonic generation works with different types of light.

Recent findings challenge previous theories on light's effect on cold atoms.

Examining complex interactions between light and matter in strong coupling scenarios.

Researchers study high-harmonic generation in ReS2 for future technology applications.

This article covers key aspects of laser physics and its various applications.

This article explores new methods for measuring distances between photons with high precision.

This article presents an efficient way to calculate how materials absorb light.

This article explores how light momentum behaves in various natural light situations.

Examining how giant fullerenes can enhance high-order harmonic generation.

New methods improve wave scattering analysis in various fields, enhancing technology and science.

A new framework combines machine learning with lens design for better light control.

Researchers develop new methods to control light using glided photonic crystal interfaces.

Charge Density Waves reveal new possibilities in material behavior under electric currents.

Study reveals effects of quantum coins and disorder on rogue amplitudes.

New methods enhance precision in measuring angular velocity through weak values and recycling techniques.

A detailed look at phase measurement algorithms and their challenges.

Researchers improve time measurement precision through photon state manipulation.

New technology aims to improve observations of cosmic events using Laue lenses.

Learn quantum optics basics and perform calculations using MATLAB.

Discover how exceptional points enhance sensing technologies using spherical resonators.

This article examines new techniques for simulating light in particle physics.

This article examines integrable systems through the lens of Lax operators and their equations.

A look into wave stability and instabilities in various contexts.

Discover how strong light modifies the electronic properties of materials.

Researchers propose a novel technique to enhance structured light applications.

New method improves wavefront sensing in telescopes.

Research reveals how vortex beams change upon reflection.

Exploring the unique properties and applications of 2D materials in various fields.

A look into optical levitation and its potential through nonlinear feedback forces.

Exciton-polariton condensates may lead to new all-optical technologies and efficient devices.

Exploring the behavior of surface plasmon-polaritons in graphene with gain and loss.

Erbium ions in cerium oxide show promise for enhancing quantum communication systems.

Exploring the potential of polariton states in thin materials for technology.