M. Codda scite author profile

We show that the growth of the heterostructure LaGaO 3 / SrTiO 3 yields the formation of a highly conductive interface. Our samples were carefully analyzed by high resolution electron microscopy, in order to assess their crystal perfection and to evaluate the abruptness of the interface. Their carrier density and sheet resistance are compared to the case of LaAlO 3 / SrTiO 3 and a superconducting transition is found. The results open the route to widening the field of polar-nonpolar interfaces, pose some phenomenological constrains to their underlying physics and highlight the chance of tailoring their properties for future applications by adopting suitable polar materials.The quasi-two-dimensional electron gas ͑q2DEG͒ recently discovered at the LaAlO 3 ͑LAO͒ / SrTiO 3 ͑STO͒ interface 1 is presently envisaged as an ideal system for the realization of nanoscale oxide devices. 2 The electronic reconstruction model attributes the origin of the q2DEG to an electronic relaxation mechanism occurring at the interface between the ͑nominally͒ non-polar ͑001͒ STO substrate and the polar ͑001͒ LAO film. The wide band gap of LAO is considered as crucial in this approach, because it determines the capability of the polar film to transfer charges over the band gap of STO. Ideally, half an electron per areal unit cell ͑Ϸ3.3ϫ 10 14 cm −2 ͒ is expected to be transferred at the TiO 2 -LaO interface, partially filling the 3d Ti levels of the STO conduction band ͑CB͒. Alternatively, a possible active role of oxygen vacancies in STO near the interface was envisaged. 3 Actually, the transport properties of the heterostructure are affected both by oxygen pressure during growth 4,5 and by the application of an oxygen postanneal. 5 Finally, it was argued that a substantial La substitution for Sr during sample growth might drive the insulating surface of STO into a conductor. [6][7][8] Obviously, also LAO poses material issues. 9 In this context, we started the search of novel heterostructures based on a different overlayer. On this basis, we identified as a first test material LaGaO 3 ͑LGO͒, a polar, wide band gap, pseudocubic perovskite.Films of LAO and LGO were deposited on nominally TiO 2 terminated STO substrates, chemically treated in deionized water and buffered-HF. 10,11 The growth was performed by reflection high energy electron diffraction ͑RHEED͒ as-sisted pulsed laser deposition ͑KrF excimer laser, 248 nm͒ with a typical fluence of Ϸ1.5-2.5 J cm −2 at the target, a substrate temperature of 800°C and different oxygen pressures within the 10 −2 -10 −4 mbar range. 12 LAO films presented regular RHEED oscillations typical of layer-by-layer growth and a final pattern reminiscent of a single crystal surface, whereas LGO films showed damped and less regular oscillations, and a streaky 2D pattern at the end of the growth ͑Fig. 1͒.The atomic and electronic structures of LAO/STO and LGO/STO interfaces were investigated by high-resolution scanning transmission electron microscopy ͑STEM͒ and electron energy loss spectroscopy ͑EELS͒ measur...

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Seebeck effect in the conductingLaAlO3/SrTiO3interface

Pallecchi¹,

Codda²,

d’Agliano³

et al. 2010

Phys. Rev. B

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The observation of metallic behavior at the interface between insulating oxides has triggered worldwide efforts to shed light on the physics of these systems and clarify some still open issues, among which the dimensional character of the conducting system. In order to address this issue, we measure electrical transport ͑Seebeck effect, Hall effect, and conductivity͒ in LaAlO 3 / SrTiO 3 interfaces and, for comparison, in a doped SrTiO 3 bulk single crystal. In these experiments, the carrier concentration is tuned, using the field effect in a back-gate geometry. The combined analysis of all experimental data at 77 K indicates that the thickness of the conducting layer is ϳ7 nm and that the Seebeck-effect data are well described by a two-dimensional density of states. We find that the back-gate voltage is effective in varying not only the charge density but also the thickness of the conducting layer, which is found to change by a factor of ϳ2, using an electric field between −4 and +4 MV/ m at 77 K. No enhancement of the Seebeck effect due to the electronic confinement and no evidence for two-dimensional quantization steps are observed at the interfaces.

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Measurement of quantities depending upon perception by jury-test methods

2003

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Publisher’s Note: “Conducting interfaces between band insulating oxides: The LaGaO3/SrTiO3 heterostructure” [Appl. Phys. Lett. 97, 152111 (2010)]

Perna¹,

Maccariello

Radović

et al. 2010

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Metrology Software for the Expression of Measurement Results by Direct Calculation of Probability Distributions

Rossi

Crenna

Codda

2004

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M. Codda

Conducting interfaces between band insulating oxides: The LaGaO3/SrTiO3 heterostructure

Seebeck effect in the conductingLaAlO3/SrTiO3interface

Measurement of quantities depending upon perception by jury-test methods

Publisher’s Note: “Conducting interfaces between band insulating oxides: The LaGaO3/SrTiO3 heterostructure” [Appl. Phys. Lett. 97, 152111 (2010)]

Metrology Software for the Expression of Measurement Results by Direct Calculation of Probability Distributions

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