The magnetic and optical properties for double impurities (Fe, Mn) doped SnSe 2 are
investigated by first principles calculations. We calculate that the magnetic moments of Fe …

The analysis of graphs and networks is a multidisciplinary research field from its origin. As
such, it has been extensively used also in biomedicine, cheminformatics, and in …

Based on first principles calculations, we scrutinized the impact of vacancies and do** on
the electronic, magnetic, and optical properties of the 1T-PdS 2 monolayer. Our findings …

Quasiparticle excitations beyond the Dirac-Weyl-Majorana classification can appear in
lattice systems due to a lesser symmetry constraint compared with Poincaré symmetry in …

The kagome lattice, characterized by its flat band and Dirac electrons, continues to attract
enduring attention in condensed matter physics as an ideal structure for studying electron …

We predict and examine various topological states on a two-dimensional triangular kagome
lattice (TKL) using the tight-binding models and theory of topological quantum chemistry …

The conditions leading to flat dispersionless frequency bands in truly one-dimensional parity-
time (PT) symmetric metamaterials comprised of split‐ring resonators (SRRs) arranged in a …

We studied the stability of several borophene layers on an Al (111) surface and found a
structure called 9R using ab initio calculations. This layer competes with χ3 and β12 …

Exploring new two-dimensional (2D) materials is of great significance for both basic
research and practical applications. Although boron can form various 3D and 2D allotropes …

An investigation of the modern phenomena of condensed matter physics, called,
magnetization plateau and magnetization jump, visible as anomalies in spin susceptibility at …