Waveguide technology has long underpinned high-performance antenna arrays by providing low-loss, highly confined paths for electromagnetic waves. Traditional metallic rectangular and circular ...

Optical waveguides confine and direct light within high‐contrast dielectric or hybrid structures, underpinning applications from fibre communications to on‐chip photonics and terahertz sensing. Design ...

Waveguides are structures designed to direct and control the propagation of electromagnetic waves from one point to another. They play a crucial role in various fields, including telecommunications, ...

Frequency combs are becoming one of the great enabling technologies of the 21st century. High-precision atomic clocks, and high-precision spectroscopy are just two technologies that have benefited ...

A team of researchers at the University of California, Los Angeles (UCLA) has introduced a novel framework for designing and creating universal diffractive waveguides that can control the flow of ...

What are modal effects? Integrated photonics—the devices and the materials used to make them happen. One of the key planar-waveguide configurations: the ring resonator. The roots of waveguide optics ...

Since its inception, augmented reality (AR) technology has faced a persistent engineering challenge: achieving a wide field of view (FOV) and excellent display quality within a compact and lightweight ...

Specifics of non-electronic issues with waveguides. How nylon can be used to make waveguides via additive manufacturing. The virtues of a unique coating that metallizes the nylon waveguide for use.

Frequency combs are becoming one of the great enabling technologies of the 21st century. High-precision atomic clocks, and high-precision spectroscopy are just two technologies that have benefited ...