Electric Field Modulation of Spin Accumulation in Nb-doped SrTiO3 with Ni/AlOx Spin Injection Contacts

A. Das; S. T. Jousma; T. Banerjee

doi:10.1142/S2010324718400040

Electric Field Modulation of Spin Accumulation in Nb-doped SrTiO3 with Ni/AlOx Spin Injection Contacts

A. Das, S. T. Jousma, T. Banerjee^*

^*Corresponding author for this work

Physics of Nanodevices

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Abstract

We demonstrate an electric field control of spin lifetime at room temperature, across a semiconducting interface of Nb:STO using Ni/AlOx as spin injection contacts. We achieve this by a careful tailoring of the potential landscape in Nb:STO, driven by the strong response of the intrinsically large dielectric permittivity in STO to electric fields. The built-in electric field at the Schottky interface with Nb: STO tunes the intrinsic Rashba spin-orbit fields leading to a bias dependence of the spin lifetime in Nb:STO. Such an electric field driven modulation of spin accumulation has not been reported earlier using conventional semiconductors. This not only underpins the necessity of a careful design of the spin injection contacts but also establishes the importance of Nb:STO as a rich platform for exploring spin-orbit driven phenomena in complex oxide based spintronic devices.

Original language	English
Article number	1840004
Number of pages	9
Journal	Spin
Volume	8
Issue number	1
DOIs	https://doi.org/10.1142/S2010324718400040
Publication status	Published - Mar-2018

Keywords

Complex oxides
semiconductor spintronics
spin accumulation
spin lifetime
Rashba spin-orbit coupling
electric field
STRONTIUM-TITANATE
SEMICONDUCTOR
SILICON

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Electric field modulation of spin accumulation in Nb doped SrTi O 3 with Ni/AlO x spin injection contactsFinal author's version, 5.13 MB

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title = "Electric Field Modulation of Spin Accumulation in Nb-doped SrTiO3 with Ni/AlOx Spin Injection Contacts",

abstract = "We demonstrate an electric field control of spin lifetime at room temperature, across a semiconducting interface of Nb:STO using Ni/AlOx as spin injection contacts. We achieve this by a careful tailoring of the potential landscape in Nb:STO, driven by the strong response of the intrinsically large dielectric permittivity in STO to electric fields. The built-in electric field at the Schottky interface with Nb: STO tunes the intrinsic Rashba spin-orbit fields leading to a bias dependence of the spin lifetime in Nb:STO. Such an electric field driven modulation of spin accumulation has not been reported earlier using conventional semiconductors. This not only underpins the necessity of a careful design of the spin injection contacts but also establishes the importance of Nb:STO as a rich platform for exploring spin-orbit driven phenomena in complex oxide based spintronic devices.",

keywords = "Complex oxides, semiconductor spintronics, spin accumulation, spin lifetime, Rashba spin-orbit coupling, electric field, STRONTIUM-TITANATE, SEMICONDUCTOR, SILICON",

author = "A. Das and Jousma, \{S. T.\} and T. Banerjee",

year = "2018",

month = mar,

doi = "10.1142/S2010324718400040",

language = "English",

volume = "8",

journal = "Spin",

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T1 - Electric Field Modulation of Spin Accumulation in Nb-doped SrTiO3 with Ni/AlOx Spin Injection Contacts

AU - Das, A.

AU - Jousma, S. T.

AU - Banerjee, T.

PY - 2018/3

Y1 - 2018/3

N2 - We demonstrate an electric field control of spin lifetime at room temperature, across a semiconducting interface of Nb:STO using Ni/AlOx as spin injection contacts. We achieve this by a careful tailoring of the potential landscape in Nb:STO, driven by the strong response of the intrinsically large dielectric permittivity in STO to electric fields. The built-in electric field at the Schottky interface with Nb: STO tunes the intrinsic Rashba spin-orbit fields leading to a bias dependence of the spin lifetime in Nb:STO. Such an electric field driven modulation of spin accumulation has not been reported earlier using conventional semiconductors. This not only underpins the necessity of a careful design of the spin injection contacts but also establishes the importance of Nb:STO as a rich platform for exploring spin-orbit driven phenomena in complex oxide based spintronic devices.

AB - We demonstrate an electric field control of spin lifetime at room temperature, across a semiconducting interface of Nb:STO using Ni/AlOx as spin injection contacts. We achieve this by a careful tailoring of the potential landscape in Nb:STO, driven by the strong response of the intrinsically large dielectric permittivity in STO to electric fields. The built-in electric field at the Schottky interface with Nb: STO tunes the intrinsic Rashba spin-orbit fields leading to a bias dependence of the spin lifetime in Nb:STO. Such an electric field driven modulation of spin accumulation has not been reported earlier using conventional semiconductors. This not only underpins the necessity of a careful design of the spin injection contacts but also establishes the importance of Nb:STO as a rich platform for exploring spin-orbit driven phenomena in complex oxide based spintronic devices.

KW - Complex oxides

KW - semiconductor spintronics

KW - spin accumulation

KW - spin lifetime

KW - Rashba spin-orbit coupling

KW - electric field

KW - STRONTIUM-TITANATE

KW - SEMICONDUCTOR

KW - SILICON

U2 - 10.1142/S2010324718400040

DO - 10.1142/S2010324718400040

M3 - Article

SN - 2010-3247

VL - 8

JO - Spin

JF - Spin

IS - 1

M1 - 1840004

ER -

Electric Field Modulation of Spin Accumulation in Nb-doped SrTiO3 with Ni/AlOx Spin Injection Contacts

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Keywords

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