Dynamic modulation of the transport properties of the LaAlO sub(3)/SrTiO sub(3) interface using uniaxial strain

Among the interfacial transport modulations to the LaAlO sub(3)/SrTiO sub(3)(LAO/STO ) heterostructure, mechanical strain has been proven to be an effective approach by growing the LAO/STO films on different substrates with varying lattice mismatches to STO. However, this lattice-mismatch-induced st...

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Veröffentlicht in:	Physical review. B 2016-06, Vol.93 (21)
Hauptverfasser:	Zhang, Fan, Fang, Yue-Wen, Chan, Ngai Yui, Lo, Wing Chong, Li, Dan Feng, Duan, Chun-Gang, Ding, Feng, Dai, Ji Yan
Format:	Artikel
Sprache:	eng
Schlagworte:	Anisotropy Compressive properties Dynamics Heterostructures Modulation Oxides Strain Transport properties
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creator	Zhang, Fan Fang, Yue-Wen Chan, Ngai Yui Lo, Wing Chong Li, Dan Feng Duan, Chun-Gang Ding, Feng Dai, Ji Yan
description	Among the interfacial transport modulations to the LaAlO sub(3)/SrTiO sub(3)(LAO/STO ) heterostructure, mechanical strain has been proven to be an effective approach by growing the LAO/STO films on different substrates with varying lattice mismatches to STO. However, this lattice-mismatch-induced strain effect is static and biaxial, hindering the study of the strain effect in a dynamic way. In this work we realize dynamic and uniaxial strain to the LAO/STO oxide heterostructure at low temperature, through mechanical coupling from a magnetostrictive template. This anisotropic strain results in symmetry breaking at the interface and induces further splitting of the electronic band structure and therefore produces different conductivities along the x and y in-plane directions. In particular, we observe that along the strained direction the interface conductivity decreases by up to 70% under a tensile strain, while it increases by 6.8% under a compressive strain at 2 K. Also, it is revealed that the modulation on the interfacial transport property can be anisotropic, i.e., the resistance changes differently when an excitation current is parallel or perpendicular to the strain direction. This approach of strain engineering provides another degree of freedom for control of transport properties of oxide heterostructures and opens an additional way to investigate strain effects in materials science.
doi_str_mv	10.1103/PhysRevB.93.214427
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However, this lattice-mismatch-induced strain effect is static and biaxial, hindering the study of the strain effect in a dynamic way. In this work we realize dynamic and uniaxial strain to the LAO/STO oxide heterostructure at low temperature, through mechanical coupling from a magnetostrictive template. This anisotropic strain results in symmetry breaking at the interface and induces further splitting of the electronic band structure and therefore produces different conductivities along the x and y in-plane directions. In particular, we observe that along the strained direction the interface conductivity decreases by up to 70% under a tensile strain, while it increases by 6.8% under a compressive strain at 2 K. Also, it is revealed that the modulation on the interfacial transport property can be anisotropic, i.e., the resistance changes differently when an excitation current is parallel or perpendicular to the strain direction. 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However, this lattice-mismatch-induced strain effect is static and biaxial, hindering the study of the strain effect in a dynamic way. In this work we realize dynamic and uniaxial strain to the LAO/STO oxide heterostructure at low temperature, through mechanical coupling from a magnetostrictive template. This anisotropic strain results in symmetry breaking at the interface and induces further splitting of the electronic band structure and therefore produces different conductivities along the x and y in-plane directions. In particular, we observe that along the strained direction the interface conductivity decreases by up to 70% under a tensile strain, while it increases by 6.8% under a compressive strain at 2 K. Also, it is revealed that the modulation on the interfacial transport property can be anisotropic, i.e., the resistance changes differently when an excitation current is parallel or perpendicular to the strain direction. 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subjects	Anisotropy Compressive properties Dynamics Heterostructures Modulation Oxides Strain Transport properties
title	Dynamic modulation of the transport properties of the LaAlO sub(3)/SrTiO sub(3) interface using uniaxial strain
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