Throughout human history, the control of light, electricity and heat has evolved to become
the cornerstone of various innovations and developments in electrical and electromagnetic …

Electromagnetically induced transparency (EIT) stems from a quantum system, where an
opaque atomic medium appears the narrow transparent state within a wide absorption area …

Broadband absorption of sunlight plays a crucial role in applying solar energy. However,
despite being a decade‐old technology, there are only a handful of simple metasurfaces …

A monolayer terahertz graphene metasurface is designed to achieve tunable plasmon-
induced transparency (PIT) effect in two perpendicular polarization directions based on …

We present numerical and theoretical analysis of the tunable electromagnetically induced
transparency-like (EIT-like) effect based on graphene metasurfaces. The unit cells of …

In this paper, we theoretically and numerically demonstrate a polarization-controlled
dynamically tunable electromagnetically induced transparency-like (EIT-like) effect based on …

In this paper, we propose a graphene-based metasurface that exhibits multifunctions
including tunable filter and slow-light which result from surface plasmon polaritons (SPPs) of …

Electromagnetically induced transparency (EIT) originates from quantum physics, where a
narrow transparent peak appears in the opaque band due to the destructive interference …

A very simple optical tunable device, which can realize multiple functions of frequency
selection, reflection and slow light, is presented at the investigation. The proposed device is …

A hybrid bilayer black phosphorus (BP) and graphene structure with high sensitivity is
proposed for obtaining plasmon-induced transparency (PIT). By means of surface plasmon …