Latest Articles for Optics

Explore how PCMs improve optical properties in various technologies.

Researchers enhance understanding of light interactions using computer simulations of symmetrical shapes.

Research shows new methods for controlling light pulses through molecular alignment.

A new method enables easier detection of light superpositions using a single photon detector.

This research examines polariton condensates and their behavior in magnetic fields.

Discover the intriguing world of reflectionless potentials in physics and their applications.

Research reveals methods to boost light intensity using plasmonic structures.

Researchers improve control over light interactions with innovative resonators.

Study reveals how imperfections affect resonator behavior.

Exploring the role of nonlinearities in wave behavior through orthogonal polynomials.

New techniques using metasurfaces improve multiphoton state measurements for quantum technologies.

Exploring machine learning's role in analyzing topological properties of photonic lattices.

Research reveals materials that can absorb nearly all incoming light with unique properties.

Nanogap antennas harness light for applications in quantum technology and medical diagnostics.

New methods enhance measurement accuracy using quantum mechanics principles.

Scientists use Bessel beams to trap light and create stable vortex patterns.

Research highlights the impact of laser imperfections on high-order harmonic generation.

A look into how gain and loss interact in N-channel systems.

An overview of how light interacts with tiny metallic structures.

A look into the processes that affect magnetic materials and their applications.

A look into the Kerr effect's impact on light and materials.

Researchers study light's behavior as a fluid, revealing insights into turbulence and quantum phenomena.

Research highlights methods to control light scattering using special incoming waves.

Exploring the effects of electrical magnetochiral anisotropy in tellurium crystals.

This article examines how light interacts with atomic clouds and the resulting phenomena.

Examining the impact of polarization on telescope image quality.

Researchers manipulate light waves using four-wave mixing in rubidium for new insights.

Examining how starting states affect the behavior of Kerr nonlinear systems.

Researchers improve microcavity sensors' sensitivity and resolution through innovative light techniques.

Discover the significant impact of hybrid nanocavities in photonics and advanced technology.

New method enhances imaging quality without a guide star using quantum mechanics.

Researchers enhance surface waves using quantum wells for better light applications.

A look into how light and matter interact on a quantum level.

Exploring the potential of 3R-MoS2 in nonlinear optical applications.

New techniques improve generation of entangled photons for quantum technologies.

Negative refraction reveals new ways light interacts with materials, opening up innovative applications.

Exploring how bosons interact and the potential for practical applications.

A new phase plate enhances electron microscopy capabilities for nanoscale studies.

New methods improve clarity and detail in holographic images.

Discover the principles behind lens design and how they affect light behavior.