SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2899165065> ?p ?o ?g. }

Showing items 1 to 100 of ±106 with 100 items per page.

W2899165065 abstract "Domain wall based devices such as racetrack memory have been proposed as promising candidates for high capacity, non-volatile information storage [1, 2]. In these devices, multiple domain walls can be propagated through nanowires at speeds of many hundreds m/s using spin transfer torque, thus allowing data to be written, read and processed. One of the main challenges towards the commercial realization for domain wall memory is the stochasticity of domain wall motion. In thin film systems, where domain wall motion is the dominant reversal mechanism, the magnetization reversal does not happen in a controlled fashion but instead forms zig-zag domains extending over several micrometers in length to form. Such stochastic behavior limits the maximum data density. To overcome this issue, researchers have used lithographically fabricated notches to act as domain wall pinning centers [3]. The other method to form pinning centers is based on exchange bias [4]. In our previous study, we proposed the use of non-magnetic metal diffusion or ions implanted locally to control and pin domains in nanowires [5]. In this report, we demonstrate the formation of pinning centers by using exchange interaction between films with perpendicular magnetic anisotropy and in-plane magnetization to create locally tilted magnetization. The perpendicular magnetic anisotropy (PMA) material Ta (1)/Pt (5)/[Co (0.3)/Ni (0.4)] 3 (0.4)] 3 (all thickness values are in nm) multilayers were deposited on Si (SiO 2 ) substrate and the in-plane magnetic (IMA) anisotropy material Co 10 Ni 90 (2.5 nm) alloy was grown on top of the PMA layer. The thickness of a Pt spacer layer between the PMA layer and IMA layer was varied to tune the angle of magnetization. Figure 1(a) shows film stack studied in this report. The hysteresis loops of films with various Pt spacer layer thickness in the in-plane direction and out-of-plane direction are shown in (b) and (c) respectively. At Pt layer thickness below 2 nm, the switching behavior of the PMA and IMA layer suggests the presence of exchange interaction between the layers. While a thicker Pt layer of 5 nm causes the switching behavior to be independent of each other and thus increasing the coercivity [6]. Mumax3 simulation was performed to study the domain wall pinning effect and depinning current with various tilt angles. Figure 2(a) shows the domain wall propagation without pinning. Figure 2(b) shows domain wall propagation with a pinning center, where the magnetization is tilted at 5 degrees from the perpendicular axis. The result shows that the domain wall is pinned at the edge of the pinning center. Our results further indicate that the magnetization tilt angle can be increased to decrease the barrier energy, which reduces the depinning current as demonstrated in figure 2(c)." @default.
W2899165065 created "2018-11-09" @default.
W2899165065 creator A5013555382 @default.
W2899165065 creator A5019393830 @default.
W2899165065 creator A5027292178 @default.
W2899165065 creator A5037613737 @default.
W2899165065 creator A5067611451 @default.
W2899165065 creator A5078423465 @default.
W2899165065 creator A5090880595 @default.
W2899165065 date "2018-04-01" @default.
W2899165065 modified "2023-09-23" @default.
W2899165065 title "Pinning Sites With Tilted Magnetization for Domain Wall Motion Control in Racetrack Memory" @default.
W2899165065 doi "https://doi.org/10.1109/intmag.2018.8508692" @default.
W2899165065 hasPublicationYear "2018" @default.
W2899165065 type Work @default.
W2899165065 sameAs 2899165065 @default.
W2899165065 citedByCount "0" @default.
W2899165065 crossrefType "proceedings-article" @default.
W2899165065 hasAuthorship W2899165065A5013555382 @default.
W2899165065 hasAuthorship W2899165065A5019393830 @default.
W2899165065 hasAuthorship W2899165065A5027292178 @default.
W2899165065 hasAuthorship W2899165065A5037613737 @default.
W2899165065 hasAuthorship W2899165065A5067611451 @default.
W2899165065 hasAuthorship W2899165065A5078423465 @default.
W2899165065 hasAuthorship W2899165065A5090880595 @default.
W2899165065 hasConcept C111919701 @default.
W2899165065 hasConcept C115260700 @default.
W2899165065 hasConcept C120665830 @default.
W2899165065 hasConcept C121332964 @default.
W2899165065 hasConcept C134306372 @default.
W2899165065 hasConcept C171250308 @default.
W2899165065 hasConcept C181635281 @default.
W2899165065 hasConcept C181686392 @default.
W2899165065 hasConcept C182260160 @default.
W2899165065 hasConcept C192562407 @default.
W2899165065 hasConcept C199631012 @default.
W2899165065 hasConcept C2524010 @default.
W2899165065 hasConcept C26873012 @default.
W2899165065 hasConcept C290404 @default.
W2899165065 hasConcept C32546565 @default.
W2899165065 hasConcept C32938098 @default.
W2899165065 hasConcept C33923547 @default.
W2899165065 hasConcept C36503486 @default.
W2899165065 hasConcept C41008148 @default.
W2899165065 hasConcept C43363307 @default.
W2899165065 hasConcept C62520636 @default.
W2899165065 hasConcept C74214498 @default.
W2899165065 hasConcept C85725439 @default.
W2899165065 hasConcept C87907426 @default.
W2899165065 hasConcept C92855701 @default.
W2899165065 hasConcept C95914496 @default.
W2899165065 hasConcept C98986596 @default.
W2899165065 hasConceptScore W2899165065C111919701 @default.
W2899165065 hasConceptScore W2899165065C115260700 @default.
W2899165065 hasConceptScore W2899165065C120665830 @default.
W2899165065 hasConceptScore W2899165065C121332964 @default.
W2899165065 hasConceptScore W2899165065C134306372 @default.
W2899165065 hasConceptScore W2899165065C171250308 @default.
W2899165065 hasConceptScore W2899165065C181635281 @default.
W2899165065 hasConceptScore W2899165065C181686392 @default.
W2899165065 hasConceptScore W2899165065C182260160 @default.
W2899165065 hasConceptScore W2899165065C192562407 @default.
W2899165065 hasConceptScore W2899165065C199631012 @default.
W2899165065 hasConceptScore W2899165065C2524010 @default.
W2899165065 hasConceptScore W2899165065C26873012 @default.
W2899165065 hasConceptScore W2899165065C290404 @default.
W2899165065 hasConceptScore W2899165065C32546565 @default.
W2899165065 hasConceptScore W2899165065C32938098 @default.
W2899165065 hasConceptScore W2899165065C33923547 @default.
W2899165065 hasConceptScore W2899165065C36503486 @default.
W2899165065 hasConceptScore W2899165065C41008148 @default.
W2899165065 hasConceptScore W2899165065C43363307 @default.
W2899165065 hasConceptScore W2899165065C62520636 @default.
W2899165065 hasConceptScore W2899165065C74214498 @default.
W2899165065 hasConceptScore W2899165065C85725439 @default.
W2899165065 hasConceptScore W2899165065C87907426 @default.
W2899165065 hasConceptScore W2899165065C92855701 @default.
W2899165065 hasConceptScore W2899165065C95914496 @default.
W2899165065 hasConceptScore W2899165065C98986596 @default.
W2899165065 hasLocation W28991650651 @default.
W2899165065 hasOpenAccess W2899165065 @default.
W2899165065 hasPrimaryLocation W28991650651 @default.
W2899165065 hasRelatedWork W1577591553 @default.
W2899165065 hasRelatedWork W1651635512 @default.
W2899165065 hasRelatedWork W1965536750 @default.
W2899165065 hasRelatedWork W1980492333 @default.
W2899165065 hasRelatedWork W1994412684 @default.
W2899165065 hasRelatedWork W2011983470 @default.
W2899165065 hasRelatedWork W2023207508 @default.
W2899165065 hasRelatedWork W2042309592 @default.
W2899165065 hasRelatedWork W2044710162 @default.
W2899165065 hasRelatedWork W2062448697 @default.
W2899165065 hasRelatedWork W2164482013 @default.
W2899165065 hasRelatedWork W2240712379 @default.
W2899165065 hasRelatedWork W2771087016 @default.
W2899165065 hasRelatedWork W2883769224 @default.
W2899165065 hasRelatedWork W2898332340 @default.
W2899165065 hasRelatedWork W2898653717 @default.
W2899165065 hasRelatedWork W2898911676 @default.
W2899165065 hasRelatedWork W3104347908 @default.