Delia Guerra scite author profile

We investigate two-dimensional trilayered quantum systems with multi-orbital conduction bands by focusing on the role played by the layer degree of freedom in setting the character of nodal line semimetals. The layer index can label the electronic states where the electrons reside in the unit cell and can enforce symmetry constraints in the electronic structure by protecting bands crossing. We demonstrate that both the atomic spin-orbit coupling and the removal of local orbital degeneracy can lead to different types of electronic transitions with nodal lines that undergo a changeover from a loop structure enclosing the center of the Brillouin zone to pockets winding around multiple high symmetry points. We introduce and employ a criterion to find the nodal lines transitions. On the basis of a zero-dimensional topological invariant that, for a selected electronic and energy manifold, counts the number of bands below the Fermi level with a given layer inversion eigenvalue in high symmetry points of the Brillouin zone, one can determine the structure of the nodal lines and the ensuing topological transitions. arXiv:1807.11301v1 [cond-mat.mes-hall] 30 Jul 2018

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The dawn of quantum mechanics

Guerra¹,

Mercaldo²

2020

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Unveiling spin-orbit coupling e ects on the electronic states of multi-orbital Transition Metal Oxides

Guerra¹

2018

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Delia Guerra

Strong spin-orbit effects in transition metal oxides with tetrahedral coordination

The basic concepts of classical physics as a useful path towards modern physics

Tuning nodal line semimetals in trilayered systems

The dawn of quantum mechanics

Unveiling spin-orbit coupling e ects on the electronic states of multi-orbital Transition Metal Oxides

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