A repository & source of cutting edge news about emerging terahertz technology, it's commercialization & innovations in THz devices, quality & process control, medical diagnostics, security, astronomy, communications, applications in graphene, metamaterials, CMOS, compressive sensing, 3d printing, and the Internet of Nanothings. NOTHING POSTED IS INVESTMENT ADVICE! REPOSTED COPYRIGHT IS FOR EDUCATIONAL USE.
Saturday, August 15, 2020
Abstract-Terahertz range resonances of metasurface formed by double-layer grating of microsize graphene strips inside dielectric slab
Tatiana L. Zinenko, Akira Matsushima, Alexander I. Nosich
https://royalsocietypublishing.org/doi/10.1098/rspa.2020.0173
We analyse, using integral equations and a previously developed in-house numerical algorithm, the scattering and absorption of the H-polarized plane wave by a metasurface consisting of a double-layer grating of flat graphene strips placed into a lossless dielectric slab. The algorithm is meshless and its convergence is guaranteed mathematically. It is a version of the method of analytical preconditioning; namely, it uses the set of weighted Chebyshev polynomials as expansion functions in the discretization of a hypersingular electric field integral equation for the on-strip current. Then the computational error is controlled by the matrix size and can be reduced to machine precision. Using this advanced tool, we plot the frequency dependences, in a huge range from 1 GHz to 10 THz, of the transmittance, reflectance and absorbance of such a metasurface. This accurate analysis reveals resonances on several types of natural modes, best understood via visualization of in-resonance near-fields. In addition to plasmon-mode resonances, special attention is paid to the ultra-high-Q resonances on the lattice modes, which are absent on the free-standing graphene strip gratings.
Subscribe to:
Post Comments (Atom)
No comments:
Post a Comment