Latest Articles for Optics

New light-sheets improve imaging and simplify microscopy setup.

New research reveals light's role in observing topological materials.

Explore the properties and applications of waveguide arrays with nonlinear gain and loss.

Research reveals how negative-index materials manipulate light in novel ways.

Research on negative-index materials reveals novel light behavior and applications.

Study how light interacts with the vacuum under strong electromagnetic fields.

This study reveals how topology, nonlinearity, and symmetry breaking interact in optical resonators.

A look at how light moves in 3D cavity superlattices and future tech impacts.

Study reveals strong links between light coherence and polarization through Fano resonance.

Researchers study how light influences tiny oscillators to synchronize their movements.

Research explores how materials change properties under light exposure.

Explore how coherence in light affects technology and applications.

Entangled photon pairs improve imaging techniques while addressing light source limitations.

Explore the intricate structures and properties of crystals in nature and science.

Learn about Bessel functions and their significance in science and engineering.

Study of chiral materials reveals unique light interactions and technological potential.

Hyperentangled states boost quantum communication and computation, enhancing information transfer.

Researchers are enhancing quantum photonics using hBN waveguides and single-photon emitters.

A look at natural optical activity and its significance in materials science.

New techniques improve entangled states for better quantum communication reliability.

Examining how light interacts with magnetic materials and its potential applications.

Examining point defects to enhance material properties across various industries.

Investigating how polarization aberrations affect telescope imaging of distant planets.

Study reveals complex behaviors of light in various materials.

Researchers present a simpler way to measure light scattering with cylindrical particles.

Examining how nonlinearity and spatial incoherence influence Airy beam quality.

Research aims to improve light and neutron manipulation through holographic materials.

Exploring the potential of terahertz frequencies in optical computing technologies.

Researchers manipulate polariton condensates' properties with dyes in a cavity setup.

A new analyzer simplifies light measurement for diverse applications.

Fiber loop lasers improve light control for various applications in technology and research.

An overview of nonlinear Schrödinger equations and their significance in various fields.

An overview of quantum teleportation and the role of displaced Fock states.

Discover the unique properties of nonlinear displaced Kerr states in quantum physics.

Nonclassical light exhibits unique properties and offers various applications in technology.

This article examines light scattering by spheres moving at relativistic speeds.

Coherent states aid in understanding quantum systems and their practical applications.

Learn about quartic solitons and their impact on laser technology.

Research reveals consistent spike trains from quantum cascade lasers for computing advancements.

This article explores how electromagnetic forces affect light in dielectrics.