All-dielectric Huygens’ meta-waveguides for resonant integrated photonics

Abstract: The growing maturity of nanofabrication technology has recently enabled the deployment of high-quality subwavelength nanostructures on photonic chips. A combination of existing photonic waveguide technology with nanophotonics and paradigms adapted from the field of optical metamaterials opens new avenues towards photonic integrated circuits providing unprecedented control of guided light waves. However, developing new functionalities while preserving both compatibility with current technology and the efficienc… Show more

“…Recently, dielectric J u s t A c c e p t e d metamaterials, which are types of metamaterials conventionally used in many fields, have been considered for effective application in the terahertz band. The Mie resonance results from the displacement current rather than the conduction current, and the performance of the dielectric material can determine the total loss [6][7][8][9]. Hence, research on the loss mechanism of dielectric materials covering the 6G technology is of critical importance, and can increase the number of different ceramic-based metamaterials.…”

Dielectric response of ANb ₂O ₆ (A = Zn, Co, Mn, Ni) columbite niobates: From microwave to terahertz

“…Recently, dielectric J u s t A c c e p t e d metamaterials, which are types of metamaterials conventionally used in many fields, have been considered for effective application in the terahertz band. The Mie resonance results from the displacement current rather than the conduction current, and the performance of the dielectric material can determine the total loss [6][7][8][9]. Hence, research on the loss mechanism of dielectric materials covering the 6G technology is of critical importance, and can increase the number of different ceramic-based metamaterials.…”

Dielectric response of ANb ₂O ₆ (A = Zn, Co, Mn, Ni) columbite niobates: From microwave to terahertz

Reconstructing the Semiconductor Band Structure by Deep Learning