As a noncontact strategy with flexible tools and high efficiency, laser precision engineering
is a significant advanced processing way for high-quality micro-/nanostructure fabrication …

The ability to bend, stretch, and roll metamaterial devices on flexible substrates adds a new
dimension to aspects of manipulating electromagnetic waves and promises a new wave of …

All‐dielectric metamaterials with low loss are a rapidly developing research hotspot in the
field of metamaterials, and offer additional design freedom for electromagnetic devices …

Polarization is a fundamental characteristic of light waves carrying sensitive measurement
and signal communication information. Traditional schemes for advanced controlling …

Photolithography is one of the most commonly used techniques in semiconductor
manufacturing, which is the foundation for all the modern electronic device fabrication …

Electromagnetic device design and flexible electronics fabrication are combined to
demonstrate mechanically tunable metamaterials operating at terahertz frequencies. Each …

A compact wideband metamaterial absorber (MA) for Ku band applications is presented in
this paper. Ku band is a part of a microwave frequency spectrum ranging from 12 to 18 GHz …

We demonstrate a significant enhancement in the sensitivity of split ring resonator terahertz
metamaterial dielectric sensors by the introduction of etched trenches into their inductive …

Abstract the THz antenna with multi-band characteristic is interesting for various application
such as THz communication. In this paper, a compact THz antenna with dual-band attributes …

In this paper, a dual-band 90° polarization rotator is proposed by using chiral metamaterial
composed of two pairs of two-layered twisted split ring resonators (SRRs) in each unit. When …