2010
DOI: 10.1063/1.3531652
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Control of defect-mediated tunneling barrier heights in ultrathin MgO films

Abstract: The impact of oxygen vacancies on local tunneling properties across rf-sputtered MgO thin films was investigated by optical absorption spectroscopy and conducting atomic force microscopy. Adding O 2 to the Ar plasma during MgO growth alters the oxygen defect populations, leading to improved local tunneling characteristics such as a lower density of current hotspots and a lower tunnel current amplitude. We discuss a defect-based potential landscape across ultrathin MgO barriers.

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Cited by 23 publications
(21 citation statements)
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“…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. This shows how the effective barrier height of a MTJ reflects the energy position of all defects within the barrier dielectric relative to E F , as weighed by the thermal activation of a given defect species within a precise temperature range.…”
Section: Discussionmentioning
confidence: 93%
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“…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. This shows how the effective barrier height of a MTJ reflects the energy position of all defects within the barrier dielectric relative to E F , as weighed by the thermal activation of a given defect species within a precise temperature range.…”
Section: Discussionmentioning
confidence: 93%
“…We thus resolve the contradiction between low barrier heights and large values of TMR in MgO MTJs. In the process, we provide a very important nuance to the generally accepted, intuitive paradigm 20,27,28 that reducing defect densities will lead to improved TMR ratios. Indeed, as predicted theoretically 25 , certain defect species in MgO (that is, M centres) can actually promote resilient magnetotransport under thermal excitation, while others (that is, F/F þ ) promote a thermally induced TMR decrease due to a more efficient, defect-induced mixing of electronic symmetries.…”
Section: Discussionmentioning
confidence: 99%
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“…In particular, adding O2 to the Ar plasma during MgO growth also helps in altering the oxygen population and the barrier performance [24]. It is also worth mentioning that these MgO films show a remarkable structural distortion [25], which is taken as an indication of the existence of cation vacancies in our samples [17].…”
Section: Device Preparation and Characterizationmentioning
confidence: 99%