Abstract 2D layered materials (2DLMs) are a subject of intense research for a wide variety of
applications (eg, electronics, photonics, and optoelectronics) due to their unique physical …

Carbon nanotubes (CNTs) have attracted significant interest due to their unique combination
of properties including high mechanical strength, large aspect ratios, high surface area …

Next-generation cellular technologies, commonly referred to as the sixth generation (6G),
are envisioned to support a higher system capacity, better performance, and network …

Terahertz (THz) light has proven to be a fine tool to probe and control quasi-particles and
collective excitations in solids, to drive phase transitions and associated changes in material …

In the presence of a circularly polarized mid-infrared radiation graphene develops
dynamical band gaps in its quasienergy band structure and becomes a Floquet insulator …

Plasmonics has developed for decades in the field of condensed matter physics and optics.
Based on the classical Maxwell theory, collective excitations exhibit profound light‐matter …

Terahertz (THz) technologies are promising for diverse areas such as medicine,
bioengineering, astronomy, environmental monitoring, and communications. However …

The linear energy dispersion of graphene electrons leads to a strongly nonlinear
electromagnetic response of this material. We develop a general quantum theory of the third …

Photodetectors play key roles in many applications such as remote sensing, night vision,
reconnaissance, medical imaging, thermal imaging, and chemical detection. Several …

We report here a new type of plasmon resonance that occurs when graphene is connected
to a metal. These new plasmon modes offer the potential to incorporate a tunable plasmonic …