Co-existence of Topological Non-trivial and Spin Gapless Semiconducting Behavior in MnPO$_4$: A Composite Quantum Compound
Phys. Rev. B 103, 195143 (2021) Composite quantum compounds (CQC) are classic example of quantum materials which host more than one apparently distinct quantum phenomenon in physics. Magnetism, topological superconductivity, Rashba physics etc. are few such quantum phenomenon which are ubiquitously...
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Main Authors | , , , , |
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Format | Journal Article |
Language | English |
Published |
03.05.2021
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Subjects | |
Online Access | Get full text |
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Summary: | Phys. Rev. B 103, 195143 (2021) Composite quantum compounds (CQC) are classic example of quantum materials
which host more than one apparently distinct quantum phenomenon in physics.
Magnetism, topological superconductivity, Rashba physics etc. are few such
quantum phenomenon which are ubiquitously observed in several functional
materials and can co-exist in CQCs. In this letter, we use {\it ab-initio}
calculations to predict the co-existence of two incompatible phenomena, namely
topologically non-trivial Weyl semimetal and spin gapless semiconducting (SGS)
behavior, in a single crystalline system. SGS belong to a special class of
spintronics material which exhibit a unique band structure involving a
semiconducting state for one spin channel and a gapless state for the other. We
report such a SGS behavior in conjunction with the topologically non-trivial
multi-Weyl Fermions in MnPO$_4$. Interestingly, these Weyl nodes are located
very close to the Fermi level with the minimal trivial band density. A drumhead
like surface state originating from a nodal loop around Y-point in the
Brillouin zone is observed. A large value of the simulated anomalous Hall
conductivity (1265 $\Omega^{-1} cm^{-1}$) indirectly reflects the topological
non-trivial behavior of this compound. Such co-existent quantum phenomena are
not common in condensed matter systems and hence it opens up a fertile ground
to explore and achieve newer functional materials. |
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DOI: | 10.48550/arxiv.2105.00907 |