Latest Articles for Optics

Exploring how light interacts with spin chains and affects material properties.

A new method enhances light measurement accuracy through optical pilot tones.

Study reveals how surroundings affect light's angular momentum from dipole sources.

An overview of vortex solitons and their role in moiré lattices.

Exploring the role of molybdenum trioxide in mid-infrared optics.

New techniques improve the speed and efficiency of optical force simulations.

A compact solution for efficient light generation in optics.

Exploring the significance and applications of the NLSE in various physics domains.

An exploration into non-Hermitian systems and the role of OTOCs.

ScAlN offers unique properties for advancing electronic and optical technologies.

A study on how photon connections create unique topological properties.

A novel method to accurately measure quantum states using rubidium vapor.

Explore the connections between light's spin and movement in plasmonic metasurfaces.

A look into the calibration of the Mid-Infrared Instrument on JWST.

New findings on GeV centers may boost quantum communication efficiency.

This study examines how light scatters in materials with different properties in various directions.

A study of wave behavior in nonlinear systems, focusing on stability and solutions.

Exploring how bound states enhance light manipulation in photonic structures.

Study reveals how materials affect terahertz emitter performance for various applications.

New insights into light behavior through spatio-spectral vector beams offer exciting applications.

This article explores the relationship between carbonyl bonds and light behavior.

Exploring the dynamics of light patterns in microresonators using dissipative solitons and breathers.

A linear algebra approach simplifies the design of optical devices.

Research uncovers the potential of Townes solitons in advanced optical applications.

Exploring the links between vector beams and quantum mechanics.

A look into controlling supercontinuum light using dual-core waveguides.

Exploring the value and applications of bound states in various systems.

A new approach to creating smaller, more efficient space-time systems.

Examining interactions between atomic groups and light fields reveals complex behaviors.

A new technique in laser technology allows for high-speed precision in various applications.

Research reveals complex behaviors of light in disordered systems with implications for technology.

Research uncovers how ultrathin films interact through the Casimir effect.

Explore how waveguide arrays control light behavior for various applications.

A look at non-Hermitian effects in optical lattices and their implications.

Researchers create new states of light with linked properties for advanced technology.

Research reveals new principles behind circularly polarized light emission and its applications.

Learn about line congruences and their role in geometry and various applications.

Exploring how waves behave in materials leads to new technologies.

Researchers advance understanding of chaotic systems using photonic topological insulators.

A new method combines machine learning and simulation to optimize THz radiation output.