Built-in and induced polarization across LaAlO3/SrTiO3 heterojunctions

Singh‐Bhalla, G.; Bell, C. H.; Ravichandran, Jayakanth; Siemons, Wolter; Hikita, Y.; Salahuddin, Sayeef; Hebard, A. F.; Hwang, Harold Y.; Ramesh, R.

doi:10.1038/nphys1814

Cited by 191 publications

(205 citation statements)

References 60 publications

(100 reference statements)

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“…Insight into the transport mechanism at play in the device is already provided by the typical tunnelling resistance versus bias curve shown in figure 5d, showing a clear asymmetry between positive and negative bias, reminiscent of previous observations for Au and Pt reference electrodes in Singh-Bhalla et al [39]. This asymmetry mainly originates from the strong trapezoidal shape of the LAO barrier caused by the difference of the materials' workfunctions.…”

Section: Magnetotransport Measurementssupporting

confidence: 71%

Towards electrical spin injection into LaAlO ₃ –SrTiO ₃

Bibès

Reyren

Lesne

et al. 2012

Phil. Trans. R. Soc. A.

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Future spintronics devices will be built from elemental blocks allowing the electrical injection, propagation, manipulation and detection of spin-based information. Owing to their remarkable multi-functional and strongly correlated character, oxide materials already provide such building blocks for charge-based devices such as ferroelectric fieldeffect transistors (FETs), as well as for spin-based two-terminal devices such as magnetic tunnel junctions, with giant responses in both cases. Until now, the lack of suitable channel materials and the uncertainty of spin-injection conditions in these compounds had however prevented the exploration of similar giant responses in oxide-based lateral spin transport structures. In this paper, we discuss the potential of oxide-based spin FETs and report magnetotransport data that suggest electrical spin injection into the LaAlO 3 -SrTiO 3 interface system. In a local, three-terminal measurement scheme, we analyse the voltage variation associated with the precession of the injected spin accumulation driven by perpendicular or longitudinal magnetic fields (Hanle and 'inverted' Hanle effects). The spin accumulation signal appears to be much larger than expected, probably owing to amplification effects by resonant tunnelling through localized states in the LaAlO 3 . We give perspectives on how to achieve direct spin injection with increased detection efficiency, as well on the implementation of efficient top gating schemes for spin manipulation.

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Section: Magnetotransport Measurementssupporting

confidence: 71%

Towards electrical spin injection into LaAlO ₃ –SrTiO ₃

Bibès

Reyren

Lesne

et al. 2012

Phil. Trans. R. Soc. A.

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“…3(j), very short voltage pulses on the Pt electrode in our device can set the device because the LAO layer is extremely thin and the oxygen vacancies only need to migrate across the LAO/ STO interface to accomplish the forming process, realizing the LRS. Besides the applied bias, the internal field within the LAO layer is a function of several factors, including the film thickness, electrode type, and even surface absorbates [16,[51][52][53][54][55][56][57]. This built-in field may contribute to the asymmetry of the energy barrier for the migration of oxygen vacancies [ Fig.…”

Section: Resultsmentioning

confidence: 99%

Nonvolatile Resistive Switching inPt/LaAlO3/SrTiO3Heterostructures

Luo

Turner

et al. 2013

Phys. Rev. X

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Resistive switching heterojunctions, which are promising for nonvolatile memory applications, usually share a capacitorlike metal-oxide-metal configuration. Here, we report on the nonvolatile resistive switching in Pt=LaAlO 3 =SrTiO 3 heterostructures, where the conducting layer near the LaAlO 3 =SrTiO 3 interface serves as the ''unconventional'' bottom electrode although both oxides are band insulators. Interestingly, the switching between low-resistance and high-resistance states is accompanied by reversible transitions between tunneling and Ohmic characteristics in the current transport perpendicular to the planes of the heterojunctions. We propose that the observed resistive switching is likely caused by the electric-field-induced drift of charged oxygen vacancies across the LaAlO 3 =SrTiO 3 interface and the creation of defect-induced gap states within the ultrathin LaAlO 3 layer. These metal-oxide-oxide heterojunctions with atomically smooth interfaces and defect-controlled transport provide a platform for the development of nonvolatile oxide nanoelectronics that integrate logic and memory devices.

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“…The intense interest in the LaAlO 3 /SrTiO 3 interface [3][4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20][21][22] has led to several recent experimental observations that suggest a close relationship between the interface and the LaAlO 3 surface. These include the use of conducting atomic force microscopy probes to toggle a metal insulator transition [10][11][12] through the writing of surface charge 12,13 , and the use of capping layers of SrTiO 3 (ref.…”

mentioning

confidence: 99%

Control of electronic conduction at an oxide heterointerface using surface polar adsorbates

et al. 2011

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The interface between LaAlo 3 and srTio 3 possesses a range of intriguing properties, notably a proposed connection between the surface state of the LaAlo 3 and the conductivity buried in the srTio 3 . Here we study the effect of the surface adsorption of a variety of common laboratory solvents on the conductivity at the interface between LaAlo 3 and srTio 3 . We show that the application of chemicals such as acetone, ethanol, and water can induce a large change in the conductivity, and, in particular, an insulator to metal transition around the critical LaAlo 3 thickness. This phenomenon is observed only for polar solvents. These data provide experimental evidence for a general polarization-facilitated electronic transfer mechanism.

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Built-in and induced polarization across LaAlO3/SrTiO3 heterojunctions

Cited by 191 publications

References 60 publications

Towards electrical spin injection into LaAlO ₃ –SrTiO ₃

Towards electrical spin injection into LaAlO ₃ –SrTiO ₃

Nonvolatile Resistive Switching inPt/LaAlO3/SrTiO3Heterostructures

Control of electronic conduction at an oxide heterointerface using surface polar adsorbates

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Built-in and induced polarization across LaAlO3/SrTiO3 heterojunctions

Cited by 191 publications

References 60 publications

Towards electrical spin injection into LaAlO 3 –SrTiO 3

Towards electrical spin injection into LaAlO 3 –SrTiO 3

Nonvolatile Resistive Switching inPt/LaAlO3/SrTiO3Heterostructures

Control of electronic conduction at an oxide heterointerface using surface polar adsorbates

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Product

Resources

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Towards electrical spin injection into LaAlO ₃ –SrTiO ₃

Towards electrical spin injection into LaAlO ₃ –SrTiO ₃