Latest Articles for Optics

Exploring how light changes the mechanical properties of zinc sulfide.

Exploring how excitons influence photocurrent in two-dimensional materials.

Additive manufacturing improves atomic vapour cell design for quantum applications.

Research on synthetic ferrimagnets improves all-optical switching for data storage technology.

Research reveals complex electron transfer behaviors in optical cavity environments.

New method produces coherent THz radiation through diamond NV centers.

Research combines free electrons and scatterers to enhance surface polariton excitation.

SAXO+ aims to improve the imaging of distant exoplanets through enhanced adaptive optics.

Researchers leverage light to separate chiral particles for improved applications in chemistry and medicine.

Research reveals how light affects molecular behavior in special environments.

This study enhances telescope imaging by reducing time-delay error in adaptive optics systems.

Exploring how light reflects in elliptical billiard tables and the significance of cusps.

New materials improve light absorption efficiency for various technologies.

Exploring how optical adiabatons shape light interactions in complex atomic systems.

An overview of the GH shift's implications in optics and quantum mechanics.

Examining how thermal noise affects optical experiment accuracy.

Higher order Poincaré modes offer unique properties for various advanced applications.

New method improves detection of transparent objects using light manipulation.

Research uncovers how strain and substrate influence second harmonic generation in MoSe monolayers.

Research on Rydberg atoms aims to transform quantum communication and computing.

Exploring the effects of non-Hermitian systems across dimensions.

Scientists develop advanced techniques to trap and study atoms with light.

New methods enhance measurement accuracy but face noise challenges.

Exploring the potential of Bose-Einstein condensates in optical cavities for quantum applications.

Study explores light interaction with different materials and its environmental effects.

RETINA simulates space conditions to test vision-based navigation systems for spacecraft.

Research on vortex-antivortex structures shows promising stability for optical applications.

QPA enhances signal precision, impacting various scientific fields.

Exploring new designs in light-matter interactions for future technologies.

New findings reveal strong light properties of chiral carbon nanotubes.

Research reveals type-II Dirac cones and exceptional rings in photonic lattices.

Exploring the unique behaviors of light in topological insulators and their applications.

Additive manufacturing produces advanced mirrors for astronomy with reduced weight and enhanced design.

Scientists study micropillars to manipulate light-matter interactions and create polaritons.

Research reveals how magnetic currents change light behavior in dielectrics.

This article studies how nonlocal bright solitons behave in dynamic environments.

Research on generating vector beams using quantum dots opens new tech possibilities.

An overview of metagratings and their impact on light manipulation.

Research into Raman scattering and anti-resonant fibers is revolutionizing light applications.

Research reveals new potentials for precise light manipulation using MPLCs.