Perpendicular magnetic anisotropy in amorphous ferromagnetic CoSiB/Pt multilayers.
2011
Spin transfer torque (STT) induced switching of magnetization has led to intriguing and practical possibilities for magnetic random access memory (MRAM). This form of memory, called STT-MRAM, is a strong candidate for future memory applications. This application usually requires a large perpendicular magnetic anisotropy (PMA), large coercivity, and low saturation magnetization. Therefore, we propose an amorphous ferromagnetic CoSiB alloy and investigate CoSiB/Pd multilayer thin films, which have a large PMA, large coercivity, and low saturation magnetization. In this research, we propose a remarkable layered structure that could be a candidate for future applications and try to address a few factors that might affect the variation of PMA, coercivity, and saturation magnetization in the CoSiB/Pd multilayers. We investigate the magnetic properties of the CoSiB/Pd multilayers with various thicknesses of the CoSiB layer. The coercivity was obtained with a maximum of 228 Oe and a minimum value of 91 Oe in the [CoSiB 7 A/Pd 14 A], and [CoSiB 9 A/Pd 14 A], multilayers, respectively. The PMA arises from tCoSiB = 3 A to tCoSiB = 9 A and disappears after tCoSiB = 9 A.
Keywords:
- Amorphous solid
- Spin-transfer torque
- Nuclear magnetic resonance
- Coercivity
- Saturation (magnetic)
- Ferromagnetism
- Magnetoresistive random-access memory
- Magnetic anisotropy
- Materials science
- Inorganic chemistry
- Magnetization
- Condensed matter physics
- Annealing (metallurgy)
- perpendicular magnetic anisotropy
- Thin film
- layer thickness
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