Add to ORKGThe crystallographic structure and magnetic anisotropy have been investigated in Co/Pt multilayers deposited by direct current magnetron sputtering on two different buffer layers, Ta and Pt. Detail theoretical and experimental investigations reveal the presence of three effects: magneto-elastic, interface and shape anisotropies, and their competition results in three distinct regions based on the Co layer thickness (tCo). In the region I, with tCo< 6 Å, the coherent lattice strain modifies the volume anisotropy through magneto-elastic contribution and it leads to overall positive volume anisotropy energy. With further increase in tCo, lattice mismatch initiates and this results in a decrease in magneto-elastic effect and it enhances the int...
We report on the temperature dependence of the magnetic properties and interface magnetism of Co/Pt ...
We report the temperature dependence of the effective perpendicular anisotropy and interface anisotr...
Perpendicular magnetic anisotropy (PMA) is significantly enhanced in Co/native oxide/Pt multilayers ...
The crystallographic structure and magnetic anisotropy have been investigated in Co/Pt multilayers d...
Co/Pt multilayer structures with varying Pt layer thicknesses from 1.5 to 12 Å were deposited on Ta ...
Co/Pt multilayer structures with varying Pt layer thicknesses from 1.5 to 12 Å were deposited on Ta ...
The inter-relation between magnetic and structural properties of a series of Co/Pt sputtered multila...
The inter-relation between magnetic and structural properties of a series of Co/Pt sputtered multila...
The inter-relation between magnetic and structural properties of a series of Co/Pt sputtered multila...
The inter-relation between magnetic and structural properties of a series of Co/Pt sputtered multila...
The inter-relation between magnetic and structural properties of a series of Co/Pt sputtered multila...
The inter-relation between magnetic and structural properties of a series of Co/Pt sputtered multila...
Co/CoO multilayers are fabricated by means of radio-frequency magnetron sputtering. For the formatio...
Co/CoO multilayers are fabricated by means of radio-frequency magnetron sputtering. For the formatio...
[[abstract]]The structure of [Co(tCo)/Pt(10 Å)]30 multilayers has been studied by X-ray absorption s...
We report on the temperature dependence of the magnetic properties and interface magnetism of Co/Pt ...
We report the temperature dependence of the effective perpendicular anisotropy and interface anisotr...
Perpendicular magnetic anisotropy (PMA) is significantly enhanced in Co/native oxide/Pt multilayers ...
The crystallographic structure and magnetic anisotropy have been investigated in Co/Pt multilayers d...
Co/Pt multilayer structures with varying Pt layer thicknesses from 1.5 to 12 Å were deposited on Ta ...
Co/Pt multilayer structures with varying Pt layer thicknesses from 1.5 to 12 Å were deposited on Ta ...
The inter-relation between magnetic and structural properties of a series of Co/Pt sputtered multila...
The inter-relation between magnetic and structural properties of a series of Co/Pt sputtered multila...
The inter-relation between magnetic and structural properties of a series of Co/Pt sputtered multila...
The inter-relation between magnetic and structural properties of a series of Co/Pt sputtered multila...
The inter-relation between magnetic and structural properties of a series of Co/Pt sputtered multila...
The inter-relation between magnetic and structural properties of a series of Co/Pt sputtered multila...
Co/CoO multilayers are fabricated by means of radio-frequency magnetron sputtering. For the formatio...
Co/CoO multilayers are fabricated by means of radio-frequency magnetron sputtering. For the formatio...
[[abstract]]The structure of [Co(tCo)/Pt(10 Å)]30 multilayers has been studied by X-ray absorption s...
We report on the temperature dependence of the magnetic properties and interface magnetism of Co/Pt ...
We report the temperature dependence of the effective perpendicular anisotropy and interface anisotr...
Perpendicular magnetic anisotropy (PMA) is significantly enhanced in Co/native oxide/Pt multilayers ...