Evidence of spin-polarized direct elastic tunneling and onset of superparamagnetism in MgO magnetic tunnel junctions

Teixeira, João Marques; Ventura, J.; Araújo, João P.; Sousa, J.B.; Fernández-García, M. P.; Wiśniowski, P.; Freitas, P. P.

doi:10.1103/physrevb.81.134423

Cited by 19 publications

(15 citation statements)

References 50 publications

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“…The polarization is assumed to vary with temperature in the same way as the magnetization such that, = 0 (1 − Fitting ΔG data to equation (2) gives P0 and α equal to 0.521 and 6.30 x 10 -5 K -3/2 , respectively. This value of α is in the expected range based on previous MTJs with MgO 43 and AlOX barriers 44 . The inset of Fig.…”

Section: Fig 1 Tmr Curves Of a Representative Sample At Rt (Solid Bsupporting

confidence: 74%

Temperature dependence of interlayer coupling in perpendicular magnetic tunnel junctions with GdOX barriers

Newhouse-Illige

Liu

et al. 2018

Applied Physics Letters

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Perpendicular magnetic tunnel junctions with GdOX tunneling barriers have shown a unique voltage controllable interlayer magnetic coupling effect. Here we investigate the quality of the GdOX barrier and the coupling mechanism in these junctions by examining the temperature dependence of the tunneling magnetoresistance and the interlayer coupling from room temperature down to 11 K. The barrier is shown to be of good quality with the spin independent conductance only contributing a small portion, 14%, to the total room temperature conductance, similar to AlOX and MgO barriers. The interlayer coupling, however, shows an anomalously strong temperature dependence including sign changes below 80 K. This non-trivial temperature dependence is not described by previous models of interlayer coupling and may be due to the large induced magnetic moment of the Gd ions in the barrier. *wgwang@physics.arizona.edu

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Section: Fig 1 Tmr Curves Of a Representative Sample At Rt (Solid Bsupporting

confidence: 74%

Temperature dependence of interlayer coupling in perpendicular magnetic tunnel junctions with GdOX barriers

Newhouse-Illige

Liu

et al. 2018

Applied Physics Letters

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“…Compared with the standard MgO MTJ theory 35,36 , this leads to the unexpected relation f P 4f AP at room temperature. As future experiments on appropriate stacks 24,40,65 (and perhaps those of ref. 43 with high TMR) with possible defect control 27 can now explicitly confirm, we expect that a sufficient density of M centres would lower f P to that centre's energy position of B0.4 eV from E F (see Table 1), thereby yielding f P of AP and larger values of TMR.…”

Section: Discussionmentioning

confidence: 99%

Localized states in advanced dielectrics from the vantage of spin- and symmetry-polarized tunnelling across MgO

et al. 2014

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Research on advanced materials such as multiferroic perovskites underscores promising applications, yet studies on these materials rarely address the impact of defects on the nominally expected materials property. Here, we revisit the comparatively simple oxide MgO as the model material system for spin-polarized solid-state tunnelling studies. We present a defect-mediated tunnelling potential landscape of localized states owing to explicitly identified defect species, against which we examine the bias and temperature dependence of magnetotransport. By mixing symmetry-resolved transport channels, a localized state may alter the effective barrier height for symmetry-resolved charge carriers, such that tunnelling magnetoresistance decreases most with increasing temperature when that state is addressed electrically. Thermal excitation promotes an occupancy switchover from the ground to the excited state of a defect, which impacts these magnetotransport characteristics. We thus resolve contradictions between experiment and theory in this otherwise canonical spintronics system, and propose a new perspective on defects in dielectrics.

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“…All these parameters are temperature-dependent. Elevating the temperature will increase G T and reduces P 1 and P 2 (Teixeira et al, 2010). As a result, R P is almost independent of temperature while R AP reduces approximately linearly with temperature.…”

Section: Resistancementioning

confidence: 99%

“…Two tunneling mechanisms contribute to the STNO resistance including electron spin-polarized direct elastic tunneling and spin independent tunneling. The total conductance of the STNO can be described as (Teixeira et al, 2010).…”

Section: Resistancementioning

confidence: 99%

LAO-NCS: Laser Assisted Spin Torque Nano Oscillator-Based Neuromorphic Computing System

et al. 2020

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Dealing with big data, especially the videos and images, is the biggest challenge of existing Von-Neumann machines while the human brain, benefiting from its massive parallel structure, is capable of processing the images and videos in a fraction of second. The most promising solution, which has been recently researched widely, is brain-inspired computers, so-called neuromorphic computing systems (NCS). The NCS overcomes the limitation of the word-at-a-time thinking of conventional computers benefiting from massive parallelism for data processing, similar to the brain. Recently, spintronic-based NCSs have shown the potential of implementation of low-power highdensity NCSs, where neurons are implemented using magnetic tunnel junctions (MTJs) or spin torque nano-oscillators (STNOs) and memristors are used to mimic synaptic functionality. Although using STNOs as neuron requires lower energy in comparison to the MTJs, still there is a huge gap between the power consumption of spintronic-based NCSs and the brain due to high bias current needed for starting the oscillation with a detectable output power. In this manuscript, we propose a spintronic-based NCS (196 × 10) proof-of-concept where the power consumption of the NCS is reduced by assisting the STNO oscillation through a microwatt nanosecond laser pulse. The experimental results show the power consumption of the STNOs in the designed NCS is reduced by 55.3% by heating up the STNOs to 100 • C. Moreover, the average power consumption of spintronic layer (STNOs and memristor array) is decreased by 54.9% at 100 • C compared with room temperature. The total power consumption of the proposed laser assisted STNO-based NCS (LAO-NCS) at 100 • C is improved by 40% in comparison to a typical STNO-based NCS at room temperature. Finally, the energy consumption of the LAO-NCA at 100 • C is expected to reduce by 86% compared with a typical STNO-based NCS at the room temperature.

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Evidence of spin-polarized direct elastic tunneling and onset of superparamagnetism in MgO magnetic tunnel junctions

Cited by 19 publications

References 50 publications

Temperature dependence of interlayer coupling in perpendicular magnetic tunnel junctions with GdOX barriers

Temperature dependence of interlayer coupling in perpendicular magnetic tunnel junctions with GdOX barriers

Localized states in advanced dielectrics from the vantage of spin- and symmetry-polarized tunnelling across MgO

LAO-NCS: Laser Assisted Spin Torque Nano Oscillator-Based Neuromorphic Computing System

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