Giuseppe Cuono scite author profile

We use relativistic ab-initio methods combined with model Hamiltonian approaches to analyze the normal-phase electronic and structural properties of the recently discovered WP superconductor. Remarkably, the outcomes of such study can be employed to set fundamental connections among WP and the pressure induced superconductors CrAs and MnP compounds belonging to the same space group. One of the key features of the resulting electronic structure is represented by the occurrence of multiple band crossings along specific high symmetry lines of the Brilloiun zone. In particular, we demonstrate that an eight-fold band degeneracy is obtained along the S-R path at (kx,ky)=(π,π), due to time reversal invariance and a pair of nonsymmorphic symmetries. The presence of multiple degenerate Fermi points along the S-R direction constraints the topology of the Fermi surface, which manifests distinctive marks when considering its evolution upon band filling variation. We show that, by changing the relative position of the Fermi level with respect to the eight-fold degenerate bands, one can tune the effective dimensionality of the Fermi surface. If the Fermi level does not cross the multifold degenerate bands, as for the WP and CrAs compounds, the degeneracy forces the occurrence of two-dimensional (2D) Fermi surface sheets centered around the S-R line with a corrugated profile along the kz direction. On the contrary, these surfaces are converted into open or closed Fermi pockets, if the bands along the SR line cross the Fermi level, as it happens in MnP. Moreover, we show that the spin-orbit interaction determines a selective removal of the band degeneracy and, consequently, a splitting of the quasi 2D Fermi sheets, as it happens in WP.

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Limited Ferromagnetic Interactions in Monolayers of MPS₃ (M = Mn and Ni)

Autieri

Cuono

Noce

et al. 2022

J. Phys. Chem. C

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We present a systematic study of the electronic and magnetic properties of two-dimensional ordered alloys, consisting of two representative hosts (MnPS 3 and NiPS 3 ) of transition metal phosphorus trichalcogenides doped with 3d elements. For both hosts, our DFT + U calculations are able to qualitatively reproduce the ratios and signs of all experimentally observed magnetic couplings. The relative strength of all antiferromagnetic exchange couplings, both in MnPS 3 and in NiPS 3 , can successfully be explained using an effective direct exchange model: it reveals that the third-neighbor exchange dominates in NiPS 3 due to the filling of the t 2g subshell, whereas for MnPS 3 , the first-neighbor exchange prevails, owing to the presence of the t 2g magnetism. On the other hand, the nearest neighbor ferromagnetic coupling in NiPS 3 can only be explained using a more complex superexchange model and is (also) largely triggered by the absence of the t 2g magnetism. For the doped systems, the DFT + U calculations revealed that magnetic impurities do not affect the magnetic ordering observed in the pure phases, and thus, in general in these systems, ferromagnetism may not be easily induced by such a kind of elemental doping. However, unlike for the hosts, the first and second (dopant–host) exchange couplings are of similar order of magnitude. This leads to frustration in the case of antiferromagnetic coupling and may be one of the reasons of the observed lower magnetic ordering temperature of the doped systems.

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Giuseppe Cuono

Multiple band crossings and Fermi surface topology: Role of double nonsymmorphic symmetries in MnP-type crystal structures

Limited Ferromagnetic Interactions in Monolayers of MPS₃ (M = Mn and Ni)

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Giuseppe Cuono

Multiple band crossings and Fermi surface topology: Role of double nonsymmorphic symmetries in MnP-type crystal structures

Limited Ferromagnetic Interactions in Monolayers of MPS3 (M = Mn and Ni)

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Limited Ferromagnetic Interactions in Monolayers of MPS₃ (M = Mn and Ni)