Terahertz (THz) interface physics as a new interdiscipline between the THz technique and
condensed matter physics has undergone rapid development in recent years. In particular …

The change of the phase of light under the evolution of a nanomaterial with time is a
promising new research direction. A phenomenon directly related to the sudden phase …

We study the Goos-Hänchen (GH) effect in a graphene-substrate system comprehensively
by using the transfer matrix method. It is revealed that the magnitude and sign of GH shifts …

The introduction of “metamaterials” has had a profound impact on several fields, including
electromagnetics. Designing a metamaterial's structure on demand, however, is still an …

The highly sensitive detection and magnetic field sensing of magnetic nanomaterials have
received extensive attention, and its weak magneto-optical effect in the terahertz (THz) band …

In this paper, a bimetallic sensor based on graphene-hexagonal boron nitride (hBN)
heterostructure is theoretically studied. The sensitivity of the sensor can be improved by …

Strong Goos–Hänchen (GH) effect at a prism-graphene interface in the quantum Hall effect
(QHE) condition is reported. Based on the full quantum description of the temperature …

The intrinsic spin-orbit coupling in 2D staggered monolayer semiconductors is very large as
compared to graphene. The large spin orbit interaction in these materials leads to the …

Goos–Hänchen (GH) and Imbert–Fedorov (IF) shifts have been widely used in the precision
metrology and optical sensing. Here, we make a comprehensive comparison on these two …

Twisted light carrying orbital angular momentum is inherently chiral. To promote the
application of such twisted light in chiral science, it is highly desirable to control its optical …