Half-metallic ferromagnetism in Fe-doped and Zn-vacancy defected ZnSe: First-principles investigation
Year 2024,
Volume: 11 Issue: 3, 1297 - 1302, 30.08.2024
Vusala Jafarova
,
Aynur Jafarova
,
Asmer Abdullayeva
,
Musaver Musaev
Abstract
The magnetic properties of defected ZnSe wurtzite systems were theoretically investigated using Density Functional Theory and Local Spin Density Approximation. From this first principal study, it was determined that pure ZnSe is a non-magnetic direct band gap semiconductor. Investigations show that adding the iron and the presence of a single Zn vacancy defect leads to the magnetization of ZnSe. The results of total energy calculations show that a ferromagnetic state is favorable when Zn is replaced with Fe. The ferromagnetic alignment in Fe-doped ZnSe wurtzite compound behaves in high-spin and half-metallic states.
References
- 1. Munekata H, Ohno H, von Molnar S, Segmüller A, Chang LL, Esaki L. Diluted magnetic III-V semiconductors. Phys Rev Lett [Internet]. 1989 Oct 23;63(17):1849–52. Available from: <URL>.
- 2. Ohno H, Shen A, Matsukura F, Oiwa A, Endo A, Katsumoto S, et al. (Ga,Mn)As: A new diluted magnetic semiconductor based on GaAs. Appl Phys Lett [Internet]. 1996 Jul 15;69(3):363–5. Available from: <URL>.
- 3. Dietl T. A ten-year perspective on dilute magnetic semiconductors and oxides. Nat Mater [Internet]. 2010 Dec 23;9(12):965–74. Available from: <URL>.
- 4. Dietl T, Ohno H. Dilute ferromagnetic semiconductors: Physics and spintronic structures. Rev Mod Phys [Internet]. 2014 Mar 24;86(1):187–251. Available from: <URL>.
- 5. Neumark GF, Park RM, Depuydt JM. Blue-green diode lasers. Phys Today [Internet]. 1994 Jun 1;47(6):26–32. Available from: <URL>.
- 6. Karzel H, Potzel W, Köfferlein M, Schiessl W, Steiner M, Hiller U, et al. Lattice dynamics and hyperfine interactions in ZnO and ZnSe at high external pressures. Phys Rev B [Internet]. 1996 May 1;53(17):11425–38. Available from: <URL>.
- 7. Adetunji BI, Adebambo PO, Adebayo GA. First principles studies of band structure and electronic properties of ZnSe. J Alloys Compd [Internet]. 2012 Feb;513:294–9. Available from: <URL>.
- 8. Haase MA, Qiu J, DePuydt JM, Cheng H. Blue-green laser diodes. Appl Phys Lett [Internet]. 1991 Sep 9;59(11):1272–4. Available from: <URL>.
- 9. Eason DB, Yu Z, Hughes WC, Roland WH, Boney C, Cook JW, et al. High-brightness blue and green light-emitting diodes. Appl Phys Lett [Internet]. 1995 Jan 9;66(2):115–7. Available from: <URL>.
- 10. A. Medvedkin G, Takayuki Ishibashi TI, Takao Nishi TN, Koji Hayata KH, Yoichi Hasegawa YH, Katsuaki Sato KS. Room temperature ferromagnetism in novel diluted magnetic semiconductor Cd1-xMnxGeP2. Jpn J Appl Phys [Internet]. 2000 Oct 1;39(10A):L949. Available from: <URL>.
- 11. Ohno H. Properties of ferromagnetic III–V semiconductors. J Magn Magn Mater [Internet]. 1999 Oct;200(1–3):110–29. Available from: <URL>.
- 12. Mayer AM. Lecture notes in physics. 1982;152:109–19. Available from: <URL>.
13. Furdyna JK. Diluted magnetic semiconductors. J Appl Phys [Internet]. 1988 Aug 15;64(4):R29–64. Available from: <URL>.
- 14. Katayama-Yoshida H, Sato K. Spin and charge control method of ternary II–VI and III–V magnetic semiconductors for spintronics: theory vs. experiment. J Phys Chem Solids [Internet]. 2003 Sep;64(9–10):1447–52. Available from: <URL>.
- 15. Khan MS, Shi L, Zou B. Impact of vacancy defects on optoelectronic and magnetic properties of Mn-doped ZnSe. Comput Mater Sci [Internet]. 2020 Mar;174:109493. Available from: <URL>.
- 16. Rai DP, Laref A, Khuili M, Al-Qaisi S, Vu T V., Vo DD. Electronic, magnetic and optical properties of monolayer (ML) hexagonal ZnSe on vacancy defects at Zn sites from DFT-1/2 approach. Vacuum [Internet]. 2020 Dec;182:109597. Available from: <URL>.
- 17. Jafarova V., Musaev M. First-principles study of structural and electronic properties of ZnSe with wurtzite structure. Tech Rom J Appl Sci Technol [Internet]. 2023 Feb 9;6:42–6. Available from: <URL>.
- 18. Hohenberg P, Kohn W. Inhomogeneous electron gas. Phys Rev [Internet]. 1964 Nov 9;136(3B):B864–71. Available from: <URL>.
- 19. Parr RG, Yang W. Density-functional theory of atoms and molecules [Internet]. New York: Oxford University Press; 1989. Available from: <URL>.
- 20. Fuchs M, Scheffler M. Ab initio pseudopotentials for electronic structure calculations of poly-atomic systems using density-functional theory. Comput Phys Commun [Internet]. 1999 Jun;119(1):67–98. Available from: <URL>.
- 21. Lundqvist S, March NH. Theory of the Inhomogeneous Electron Gas [Internet]. Lundqvist S, March NH, editors. Boston, MA: Springer US; 1983. 425 p. Available from: <URL>.
- 22. Monkhorst HJ, Pack JD. Special points for Brillouin-zone integrations. Phys Rev B [Internet]. 1976 Jun 15;13(12):5188–92. Available from: <URL>.
- 23. Chen XL, Huang BJ, Feng Y, Wang PJ, Zhang CW, Li P. Electronic structures and optical properties of TM (Cr, Mn, Fe or Co) atom doped ZnSe nanosheets. RSC Adv [Internet]. 2015;5(128):106227–33. Available from: <URL>.
- 24. Behloul M, Salmani E, Ez-Zahraouy H, Benyoussef A. Theoretical investigation of electronic, magnetic and optical properties of ZnSe doped TM and co-doped with MnTM (TM: Fe, Cr, Co): AB-initio study. J Magn Magn Mater [Internet]. 2016 Dec;419:233–9. Available from: <URL>.
Year 2024,
Volume: 11 Issue: 3, 1297 - 1302, 30.08.2024
Vusala Jafarova
,
Aynur Jafarova
,
Asmer Abdullayeva
,
Musaver Musaev
References
- 1. Munekata H, Ohno H, von Molnar S, Segmüller A, Chang LL, Esaki L. Diluted magnetic III-V semiconductors. Phys Rev Lett [Internet]. 1989 Oct 23;63(17):1849–52. Available from: <URL>.
- 2. Ohno H, Shen A, Matsukura F, Oiwa A, Endo A, Katsumoto S, et al. (Ga,Mn)As: A new diluted magnetic semiconductor based on GaAs. Appl Phys Lett [Internet]. 1996 Jul 15;69(3):363–5. Available from: <URL>.
- 3. Dietl T. A ten-year perspective on dilute magnetic semiconductors and oxides. Nat Mater [Internet]. 2010 Dec 23;9(12):965–74. Available from: <URL>.
- 4. Dietl T, Ohno H. Dilute ferromagnetic semiconductors: Physics and spintronic structures. Rev Mod Phys [Internet]. 2014 Mar 24;86(1):187–251. Available from: <URL>.
- 5. Neumark GF, Park RM, Depuydt JM. Blue-green diode lasers. Phys Today [Internet]. 1994 Jun 1;47(6):26–32. Available from: <URL>.
- 6. Karzel H, Potzel W, Köfferlein M, Schiessl W, Steiner M, Hiller U, et al. Lattice dynamics and hyperfine interactions in ZnO and ZnSe at high external pressures. Phys Rev B [Internet]. 1996 May 1;53(17):11425–38. Available from: <URL>.
- 7. Adetunji BI, Adebambo PO, Adebayo GA. First principles studies of band structure and electronic properties of ZnSe. J Alloys Compd [Internet]. 2012 Feb;513:294–9. Available from: <URL>.
- 8. Haase MA, Qiu J, DePuydt JM, Cheng H. Blue-green laser diodes. Appl Phys Lett [Internet]. 1991 Sep 9;59(11):1272–4. Available from: <URL>.
- 9. Eason DB, Yu Z, Hughes WC, Roland WH, Boney C, Cook JW, et al. High-brightness blue and green light-emitting diodes. Appl Phys Lett [Internet]. 1995 Jan 9;66(2):115–7. Available from: <URL>.
- 10. A. Medvedkin G, Takayuki Ishibashi TI, Takao Nishi TN, Koji Hayata KH, Yoichi Hasegawa YH, Katsuaki Sato KS. Room temperature ferromagnetism in novel diluted magnetic semiconductor Cd1-xMnxGeP2. Jpn J Appl Phys [Internet]. 2000 Oct 1;39(10A):L949. Available from: <URL>.
- 11. Ohno H. Properties of ferromagnetic III–V semiconductors. J Magn Magn Mater [Internet]. 1999 Oct;200(1–3):110–29. Available from: <URL>.
- 12. Mayer AM. Lecture notes in physics. 1982;152:109–19. Available from: <URL>.
13. Furdyna JK. Diluted magnetic semiconductors. J Appl Phys [Internet]. 1988 Aug 15;64(4):R29–64. Available from: <URL>.
- 14. Katayama-Yoshida H, Sato K. Spin and charge control method of ternary II–VI and III–V magnetic semiconductors for spintronics: theory vs. experiment. J Phys Chem Solids [Internet]. 2003 Sep;64(9–10):1447–52. Available from: <URL>.
- 15. Khan MS, Shi L, Zou B. Impact of vacancy defects on optoelectronic and magnetic properties of Mn-doped ZnSe. Comput Mater Sci [Internet]. 2020 Mar;174:109493. Available from: <URL>.
- 16. Rai DP, Laref A, Khuili M, Al-Qaisi S, Vu T V., Vo DD. Electronic, magnetic and optical properties of monolayer (ML) hexagonal ZnSe on vacancy defects at Zn sites from DFT-1/2 approach. Vacuum [Internet]. 2020 Dec;182:109597. Available from: <URL>.
- 17. Jafarova V., Musaev M. First-principles study of structural and electronic properties of ZnSe with wurtzite structure. Tech Rom J Appl Sci Technol [Internet]. 2023 Feb 9;6:42–6. Available from: <URL>.
- 18. Hohenberg P, Kohn W. Inhomogeneous electron gas. Phys Rev [Internet]. 1964 Nov 9;136(3B):B864–71. Available from: <URL>.
- 19. Parr RG, Yang W. Density-functional theory of atoms and molecules [Internet]. New York: Oxford University Press; 1989. Available from: <URL>.
- 20. Fuchs M, Scheffler M. Ab initio pseudopotentials for electronic structure calculations of poly-atomic systems using density-functional theory. Comput Phys Commun [Internet]. 1999 Jun;119(1):67–98. Available from: <URL>.
- 21. Lundqvist S, March NH. Theory of the Inhomogeneous Electron Gas [Internet]. Lundqvist S, March NH, editors. Boston, MA: Springer US; 1983. 425 p. Available from: <URL>.
- 22. Monkhorst HJ, Pack JD. Special points for Brillouin-zone integrations. Phys Rev B [Internet]. 1976 Jun 15;13(12):5188–92. Available from: <URL>.
- 23. Chen XL, Huang BJ, Feng Y, Wang PJ, Zhang CW, Li P. Electronic structures and optical properties of TM (Cr, Mn, Fe or Co) atom doped ZnSe nanosheets. RSC Adv [Internet]. 2015;5(128):106227–33. Available from: <URL>.
- 24. Behloul M, Salmani E, Ez-Zahraouy H, Benyoussef A. Theoretical investigation of electronic, magnetic and optical properties of ZnSe doped TM and co-doped with MnTM (TM: Fe, Cr, Co): AB-initio study. J Magn Magn Mater [Internet]. 2016 Dec;419:233–9. Available from: <URL>.