Electronic charges and electric potential at LaAlO<mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" display="inline"><mml:msub><mml:mrow /><mml:mn>3</mml:mn></mml:msub></mml:math>/SrTiO<mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" display="inline"><mml:msub><mml:mrow /><mml:mn>3</mml:mn></mml:msub></mml:math>interfaces studied by core-level photoemission spectroscopy

Takizawa, M.; Tsuda, S.; Susaki, Tomofumi; Hwang, Harold Y.; Fujimori, A.

doi:10.1103/physrevb.84.245124

Cited by 74 publications

(89 citation statements)

References 31 publications

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“…Its observation requires low photon energies, rarely used for core level studies. This is probably the reason why this interesting phenomenon escaped the attention of previous investigations, 13,30 although some broadening of the Sr 3d has been reported occasionally. 31 We now turn to the two final and most intriguing open questions: which is the origin of the extra Sr-2 component and what determines the shift in BE?…”

mentioning

confidence: 81%

“…34 This hypothesis, if confirmed, could be consistent with the observation that BE shifts of electrostatic nature are hardly found in LaAlO 3 /SrTiO 3 . 30,[36][37][38] At the end we address the general importance of the observed Sr-segregation for the physics of the oxide heterostructures. Any attempt to directly link this phenomenon to interface conductivity would be highly speculative at this stage.…”

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confidence: 99%

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Observation of strontium segregation in LaAlO3/SrTiO3 and NdGaO3/SrTiO3 oxide heterostructures by X-ray photoemission spectroscopy

et al. 2014

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LaAlO3 and NdGaO3 thin films of different thicknesses have been grown by pulsed laser deposition on TiO2-terminated SrTiO3 single crystals and investigated by soft X-ray photoemission spectroscopy. The surface sensitivity of the measurements has been tuned by varying photon energy hν and emission angle Θ. In contrast to the core levels of the other elements, the Sr 3d line shows an unexpected splitting for higher surface sensitivity, signaling the presence of a second strontium component. From our quantitative analysis we conclude that during the growth process Sr atoms diffuse away from the substrate and segregate at the surface of the heterostructure, possibly forming strontium oxide.

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confidence: 81%

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confidence: 99%

Observation of strontium segregation in LaAlO3/SrTiO3 and NdGaO3/SrTiO3 oxide heterostructures by X-ray photoemission spectroscopy

et al. 2014

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“…These data also suggest that many of the conflicting (and often contradictory) studies of this popular system can be explained by this observation, that is, whether measurements are made in situ 31 , or after various surface exposures (for example, atmospheric water, or solvent cleaning) [32][33][34] , the sensitive electronic structure of the interface may be dramatically altered. For example, the predicted electric field across the LaAlO 3 layer [18][19][20] was not observed in X-ray photoemission studies 32 that may be explained consistently because the surface adsorbates (in particular atmospheric water) induced by the ex-situ processing reduce V Uncom , or equally, the electrical field across the LaAlO 3 layer.…”

Section: Comparison Between Sap and Adsorption Of Solvent Vapourmentioning

confidence: 94%

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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“…1) 3,4 . The other three mechanisms involve various defects, including the oxygen vacancies at the interface (denoted as V O (I), where 'I' means 'Interface') [14][15][16] , oxygen vacancies at LaAlO 3 overlayer surface (denoted as V O (S), where S means 'Surface') [17][18][19][20][21][22] , and the La-onSr (La Sr ) antisite donor defects induced by interfacial cation intermixing [23][24][25][26][27][28][29] . As Table 1 shows, each of these proposed mechanisms represents one aspect of the interface physics, explains some experimental findings, but conflicts with a few others 2 .…”

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A polarity-induced defect mechanism for conductivity and magnetism at polar–nonpolar oxide interfaces

2014

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The discovery of conductivity and magnetism at the polar-nonpolar interfaces of insulating nonmagnetic oxides such as LaAlO 3 and SrTiO 3 has raised prospects for attaining interfacial functionalities absent in the component materials. Yet, the microscopic origin of such emergent phenomena remains unclear, posing obstacles to design of improved functionalities. Here we present first principles calculations of electronic and defect properties of LaAlO 3 / SrTiO 3 interfaces and reveal a unifying mechanism for the origins of both conductivity and magnetism. We demonstrate that the polar discontinuity across the interface triggers thermodynamically the spontaneous formation of certain defects that in turn cancel the polar field induced by the polar discontinuity. The ionization of the spontaneously formed surface oxygen vacancy defects leads to interface conductivity, whereas the unionized Ti-on-Al antisite defects lead to interface magnetism. The proposed mechanism suggests practical design principles for inducing and controlling both conductivity and magnetism at general polar-nonpolar interfaces.

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Electronic charges and electric potential at LaAlO3/SrTiO3interfaces studied by core-level photoemission spectroscopy

Cited by 74 publications

References 31 publications

Observation of strontium segregation in LaAlO3/SrTiO3 and NdGaO3/SrTiO3 oxide heterostructures by X-ray photoemission spectroscopy

Observation of strontium segregation in LaAlO3/SrTiO3 and NdGaO3/SrTiO3 oxide heterostructures by X-ray photoemission spectroscopy

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

A polarity-induced defect mechanism for conductivity and magnetism at polar–nonpolar oxide interfaces

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