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Nov 28, 2018 · We show that doping with elements calculated to have negative defect energies indeed improves the thermal stability. Y-doped MnN layers with ...
Aug 9, 2018 · We show that doping with elements calculated to have negative defect energies indeed improves the thermal stability. Y doped MnN layers with ...
Nov 28, 2018 · Improved thermal stability in doped MnN/CoFe exchange bias systems. M. Dunz,a) B. Büker, and M. Meinert. Center for Spinelectronic Materials ...
We show that doping with elements calculated to have negative defect energies indeed improves the thermal stability. Y-doped MnN layers with dopant ...
We show that doping with elements calculated to have negative defect energies indeed improves the thermal stability. Y-doped MnN layers with dopant ...
In order to improve the thermal stability, defect energies of elements throughout the periodic table substituting Mn were calculated via density functional ...
In order to improve the thermal stability, we prepared exchange bias stacks where we varied the Ta thickness to look for an optimum value that guarantees stable ...
Aug 9, 2018 · We investigated the influence of doping antiferromagnetic MnN in polycrystalline MnN/CoFe exchange bias systems, showing high exchange bias ...
field serves to saturate the CoFe layer and the exchange field from this F layer then aligns the ... compound may also increase the stability of the nitrogen ...
Missing: Improved | Show results with:Improved
Doping has been shown to enhance the thermal stability of MnN/CoFe exchange-bias systems [19]. Undoped samples with structure Ta(10 nm)/MnN(30 nm)/Co70Fe30 ...