Latest Articles for Optics

A look into the nature of light and its implications in science.

Research introduces stable light bullets in unique environments for potential technological advancements.

Research highlights effective storage and retrieval of OAM beams using rubidium vapor.

Exploring the impact of vibrational polaritons on energy transfer and chemical reactions.

Research unveils how spectral diffusion affects quantum light emission.

Investigating how light behaves with unique materials to unveil new technologies.

A new method improves light rendering by combining ray and wave properties.

Research reveals fascinating properties of Dirac exceptional points in non-Hermitian systems.

Researchers reveal how energy loss creates stable topological edge states in materials.

Research focuses on improving diamond properties for better quantum applications.

A novel approach to measure exciton properties in two-dimensional materials.

Examining how optical vortices behave in chaotic light environments.

A look into light's interaction with layered materials and its implications.

Chiral spheres influence light behavior, with potential applications in pharmaceuticals and technology.

Explore the unique electronic properties and light interactions of Dirac metals.

Discover how quantum squeezing improves measurement precision in light and atomic systems.

Explore how Fourier optics transforms imaging and computing technologies.

These fibers guide light efficiently at significant wavelengths for various applications.

Examining non-hermitian systems reveals unique behaviors in quantum physics.

Discover how photonic crystals control light and enable advanced technologies.

Discover how frequency combs are changing light measurement techniques.

A new adjustable spatial filter improves secure key distribution during daylight.

Researchers develop a model to predict light travel in mixtures efficiently.

A novel approach to solve the hyperbolic Monge-Ampère equation more effectively.

Research reveals insights into nanoscale electron-light coupling using advanced microscopy techniques.

Exploring the connection between infinity and optical vortex beams.

Research reveals links between high-harmonic generation and ionization in solid materials.

New method enhances color holography for realistic VR and AR experiences.

A novel approach improves imaging and tracking precision in molecular research.

Researchers develop stronger methods for manipulating chiral molecules using principles from Velella velella.

Exploring the unique features and applications of nodal ring semimetals.

Research explores controlling light emission using nanoantennas and rare earth ions.

Researchers develop new methods for storing photons using arrays of light-emitting particles.

Discover how FrFT enhances light manipulation for better communication and sensing.

This article explores the significance and methods of generating single photons in the MIR range.

A look into the techniques and challenges of photocounting in light measurement.

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.