Latest Articles for Optics

Exploring the impact and potential of quantum mechanics applications.

Research reveals innovative solitons that enhance photonic technology and communication systems.

Research reveals new insights into Landau levels using strained silicon photonic crystals.

A look into the significance and computation of non-linear optical properties.

Bell states enable secure communication and information transfer in quantum mechanics.

Researchers find new methods to detect elusive virtual photons, aiding quantum technology.

Researchers propose a novel way to stabilize twisted bilayer graphene properties using chiral optical cavities.

New methods enhance light manipulation in multimode fibers for various applications.

Researchers have developed methods to control optical vortex properties flexibly.

Exploring how light affects molecular behavior in optical cavities.

Discover the impact of mirrors on optical cavities and their applications in technology.

A novel configuration addresses amplitude issues in spin simulations using optical cavities.

Exploring the unique characteristics and applications of Stokes singular beams in optics.

Research investigates stability and behavior of bright solitons in fractional diffraction environments.

Discover the unique features and applications of Poincaré-Bessel beams in optics.

Researchers improve techniques for using polar molecules in quantum technologies.

New Yb:YAG laser enhances precision in physics experiments.

Examining the unique behavior of non-Hermitian systems in physics.

Learn how PSF impacts measurements of celestial objects.

Research reveals how structured light creates electric currents in thin materials.

Exploring how optical chirality affects light interaction in materials.

Exploring light and matter interactions in quantum optics for future technologies.

This method helps scientists study stars by analyzing light patterns.

Liquid-crystal devices show promise for enhancing terahertz technology across different fields.

Research reveals new models to enhance optical frequency comb generation in compact devices.

A method to generate multiple solitons from a single light pulse.

A simple approach to measure Kerr index without advanced detectors.

Researchers improve imaging resolution by using quantum techniques and entangled light sources.

Investigating how rare-earth glasses change light properties through noise measurement.

Research reveals dynamics of photon emission from quantum emitters in waveguides.

A look into gap solitons and nonlinear Bloch states in Bose-Einstein condensates.

A new beam combiner improves observations of stars in the J- and H-bands.

Research reveals new insights into particle behavior in ordered materials.

New methods improve measurement accuracy for light sources in optical imaging.

An experiment revealing how evaporating droplets create unique light interference patterns.

New techniques improve the efficiency of photon-number detector characterization.

Photonic crystals control light movement, enabling advancements in technology.

New techniques improve imaging and sensing capabilities using time-domain superoscillations.

New method enhances production of optical cat states in quantum technology.

Research reveals how giant atoms affect photon interactions in waveguides.