Abstract
Electrical injection of magnetic domain walls in perpendicular magnetic anisotropy nanowire is crucial for data bit writing in domain wall-based magnetic memory and logic devices. Conventionally, the current pulse required to nucleate a domain wall is approximately ~1012 A/m2. Here, we demonstrate an energy efficient structure to inject domain walls. Under an applied electric potential, our proposed Π-shaped stripline generates a highly concentrated current distribution. This creates a highly localized magnetic field that quickly initiates the nucleation of a magnetic domain. The formation and motion of the resulting domain walls can then be electrically detected by means of Ta Hall bars across the nanowire. Our measurements show that the Π-shaped stripline can deterministically write a magnetic data bit in 15 ns even with a relatively low current density of 5.34 × 1011 A/m2. Micromagnetic simulations reveal the evolution of the domain nucleation – first, by the formation of a pair of magnetic bubbles, then followed by their rapid expansion into a single domain. Finally, we also demonstrate experimentally that our injection geometry can perform bit writing using only about 30% of the electrical energy as compared to a conventional injection line.
Highlights
Magnetic domain wall (DW) based memory technology has shown great potential to be used as a universal memory due to their outstanding performance characteristics[1,2,3]
DW injection is achieved by applying an electrical current via a thick and conductive stripline deposited on top of the magnetic nanowire
The Oersted field generated by the conductive stripline is used to change the magnetization direction of the magnetic nanowire, with the magnetization direction depending on the direction of the current applied[23,24,25,26]
Summary
Anisotropy Nanowire received: 20 August 2015 accepted: 06 April 2016 Published: 21 April 2016. Under an applied electric potential, our proposed Π-shaped stripline generates a highly concentrated current distribution This creates a highly localized magnetic field that quickly initiates the nucleation of a magnetic domain. Magnetic domain wall (DW) based memory technology has shown great potential to be used as a universal memory due to their outstanding performance characteristics[1,2,3] In such devices, the non-volatile data bits can be accessed without the use of any mechanical parts. We propose a highly angular Π -shaped injection line design and experimentally demonstrate that a DW can be deterministically injected with a current amplitude of about 5.35 × 1011 A/m2 and pulse duration of 15 ns Both experimental and simulation results show that our design consumes about 30% of the energy required by conventional injection designs
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