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- Title
First-Principles Calculations to Investigate Electronic and Magnetic Behaviors of Zr and Nb Transition Metals Doped Zinc-Blende MgSe Compound.
- Authors
Amahouch, A.; Salmani, E.; Rami, R.; Drissi, L. B.; Laamara, R. Ahl
- Abstract
The electronic and magnetic features are investigated for doped diluted magnetic semiconductor, specifically magnesium selenide (MgSe). The semiconductor is doped with a single impurity of either zirconium (Zr) or niobium (Nb). To conduct this investigation, a combination of the Korringa-Kohn-Rostoker coherent potential approximation, generalized gradient approximation (GGA) first-principles calculation, and the parametrization method of Pedrew Burke and Ernzerhof (PBE) is used. Our results show that the incorporation of Zr and Nb into the host composite makes a significant contribution to the total magnetic moment of the doped system. The total magnetic moment for M g 1 - x D x S e (D= Nb,Zr) is - 0.58 μ B and - 0.38 μ B for Nb and Zr, respectively, induced by the polarization of the spin at Fermi level ( E F ). Moreover, the ferromagnetic state is stable due to the double exchange mechanism and exhibits a remarkable Curie temperature (Tc) with maximum values of 940 K and 619 K for 2% concentration of Nb and 20% of Zr, respectively. This result leads to interesting magnetic behavior. On the other hand, the double exchange, responsible for short-range interactions mediated by Selenium atoms, arises from the occurrence of p-d orbital hybridization. As a consequence, doping MgSe with Zr and Nb transition metals opens the door to explore and develop new devices in spintronic areas, under room temperature.
- Subjects
SPHALERITE; DILUTED magnetic semiconductors; ORBITAL hybridization; SEMICONDUCTOR doping; CURIE temperature; MAGNETIC moments; HEUSLER alloys; TRANSITION metals
- Publication
Journal of Superconductivity & Novel Magnetism, 2024, Vol 37, Issue 3, p547
- ISSN
1557-1939
- Publication type
Article
- DOI
10.1007/s10948-023-06684-4