Tunneling Magnetoresistance in MgO Tunnel Junctions with Fe-Based Leads in Empirically Corrected Density Functional Theory: Article No. 224425

G. Baez Flores, M. van Schilfgaarde, K. Belashchenko

Research output: Contribution to journalArticlepeer-review

Abstract

The minority-spin Fe/MgO interface states are at the Fermi level in density functional theory (DFT), but experimental evidence and GW calculations place them slightly higher in energy. This small shift can strongly influence tunneling magnetoresistance (TMR) in junctions with a thin MgO barrier and its dependence on the concentration of Co in the electrodes. Here, an empirical potential correction to DFT is introduced to shift the interface states up to match the tunnel spectroscopy data. With this shift, TMR in Fe/MgO/Fe junctions exceeds 800% and 3000% at 3 and 4 monolayers (ML) of MgO, respectively. We further consider the effect of alloying of the Fe electrodes with up to 30% Co or 10% V, treating them in the coherent potential approximation (CPA). Alloying with Co broadens the interface states and brings a large incoherent minority-spin spectral weight to the Fermi level. Alloying with V brings the minority-spin resonant states close to the Fermi level. However, in both cases the minority-spin spectral weight at the Fermi level resides primarily at the periphery of the Brillouin zone, which is favorable for spin filtering. Using convolutions of kII-resolved barrier densities of states calculated in CPA, it is found that TMR is strongly reduced by alloying with Co or V but still remains above 500% at 4 ML of MgO up to 30% of Co or 5% V. At 5 ML, the TMR increases above 1000% in all systems considered. However, while TMR declines sharply with increasing bias up to 0.2 eV in the tunnel junctions with pure Fe leads, it remains almost constant up to 0.5 eV if leads are alloyed with Co.
Original languageAmerican English
Number of pages10
JournalPhysical Review B
Volume110
Issue number22
DOIs
StatePublished - 2024

NREL Publication Number

  • NREL/JA-5900-91306

Keywords

  • Fe-based leads
  • Fe/MgO
  • FeX/MgO/Fe MTJs
  • magnetic tunnel junctions
  • magnetoresistance
  • spin-dependent tunneling

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