Study of the ground-state magnetic ordering, magnetic and optoelectronic properties of (Lenaite) AgFeS2 in its chalcopyrite structure

Study of the ground-state magnetic ordering, magnetic and optoelectronic properties of (Lenaite) AgFeS2 in its chalcopyrite structure

•Magnetic and optoelectronic properties of AgFeS2 have been studied.•AgFeS2 is semiconductor with antiferromagnetic behavior.•Néel temperature has been estimated using mean field approximation.•AgFeS2 is mechanically stable with a large elastic anisotropy. Several previous works have shown that (Len...

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Bibliographic Details
Published in:Journal of magnetism and magnetic materials Vol. 493; p. 165730
Main Authors: Djaafri, T., Bouafia, H., Sahli, B., Djebour, B., Uğur, Ş., Uğur, G., Moussa, H.
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 01-01-2020
Elsevier BV
Subjects:
(Lenaite)AgFeS2
Absorptivity
Antiferromagnetism
Chalcopyrite
Dependence
Elastic anisotropy
Elastic properties
Electron transitions
Ground-state magnetic ordering
Magnetic and electronic properties
Magnetic properties
Mathematical analysis
Modulus of elasticity
Néel temperature
Optoelectronics
Parameter estimation
Spin-orbit interactions
Magnetic and electronic properties
Néel temperature
(Lenaite)AgFeS2
Ground-state magnetic ordering
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Summary:•Magnetic and optoelectronic properties of AgFeS2 have been studied.•AgFeS2 is semiconductor with antiferromagnetic behavior.•Néel temperature has been estimated using mean field approximation.•AgFeS2 is mechanically stable with a large elastic anisotropy. Several previous works have shown that (Lenaite) AgFeS2 has a chalcopyrite structure with I-42d space group, but several information about its magnetic and optoelectronic behavior remain still unknown. The study of these properties is the main objective of our work, which is based on several theoretical approaches. The determination of the most stable magnetic ordering and the study of structural and elastic properties and that of most magnetic and optoelectronic properties have been carried out with FP-(L)APW + lo method, which is implemented in WIEN2k code. Our results have shown that AgFeS2-Chalcopyrite is an antiferromagnetic material with the same magnetic ordering as CuFeS2. The structural results are in good agreement with the previous results. The study of elasticity has shown that this compound is mechanically stable in its chalcopyrite structure and the analysis of the directional dependence of Young’s modulus has shown its large elastic anisotropy. The electronic properties have been studied taking into account the strong correlation between the electrons of 3d-Fe states and their spin-orbit coupling (SOC). The obtained results with these two corrections have shown that AgFeS2 is a semiconductor with an indirect band-gap. Néel temperature has been estimated by mean-field approximation (MFA), which is based on the estimation of the exchange coupling parameters (Jij). These latter were calculated by SPR-KKR method and TN found value is relatively very high in comparison with that of CuFeS2. Electronic transitions and optical absorption have also been studied respectively by the determination of the dielectric function and the study of the absorption coefficient variations as a function of energy.
ISSN:0304-8853
1873-4766
DOI:10.1016/j.jmmm.2019.165730