Dynamically Reconfigurable Terahertz Metamaterial through Magnetic Electric and Thermal routes

Abstract

Optics, the intricate science of exploring light s properties and phenomena, has paved the way newlinefor the cutting-edge field of photonics. The domain of optics has predominantly focussed on newlinevisible light, as this part of the electromagnetic spectrum is the most noticeable to humans. In newlinethis realm, regulating the interaction between the light and matter plays an essential role for newlineachieving precise response of electromagnetic (EM) radiation in materials. Therefore, newlineachieving different light-matter interactions are crucial as various modern photonic devices newlineutilized in imaging, healthcare, telecommunications, defence sectors, and quantum newlinetechnologies rely on the complex design principles to realize efficient performance.