All-dielectric metamaterials and metasurfaces have been demonstrated as ideal platforms to
manipulate electromagnetic waves and enhance light–matter interaction. Analogous to …

Metasurfaces are ultrathin metamaterials consisting of planar electromagnetic (EM)
microstructures (eg, meta-atoms) with pre-determined EM responses arranged in specific …

Terahertz functional devices have been instrumental in the development of terahertz
technology. Moreover, the advent of metamaterials has greatly contributed to the …

Solar energy absorption is a very important field in photonics. The successful development
of an efficient, wide-band solar absorber is an extremely powerful driver in this field. We …

The coding metasurface integrated with tunable materials offers an attractive alternative to
manipulate the THz beam dynamically. In this work, we demonstrate a THz programmable …

At present, solar energy is widely used as a kind of clean energy. The main solar radiation
range under AM 1.5 is about 300~ 3000 nm. In this paper, we designed an efficient, ultra …

A novel design of nearly perfect metamaterial absorber is proposed and analyzed for
terahertz sensing applications. The full vectorial finite element method is used to simulate …

Electromagnetic wave absorbing materials play an increasingly important role in consumer
electronics and military defense. The remarkable merits of atomically thin graphene …

Metamaterials refer to a class of artificial composite structures with supernormal physical
properties that natural materials do not have. The emergence of metamaterials has opened …

With recent advances in nanophotonics and nanofabrication, considerable progress has
been achieved in realizations of thin composite layers designed for full absorption of …