Magnetotransport of manganite superlattices: Investigating the role of a magnetic insulating spacer

D. Niebieskikwiat; L. E. Hueso; N. D. Mathur; M. B. Salamon

doi:10.1063/1.2992029

Magnetotransport of manganite superlattices: Investigating the role of a magnetic insulating spacer

D. Niebieskikwiat^*
, L. E. Hueso
, N. D. Mathur
, M. B. Salamon

^*Corresponding author for this work

University of Illinois at Urbana-Champaign
University of Cambridge
University of Leeds
University of Texas at Dallas

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

Magnetotransport data are presented for a set of manganite superlattices comprising La_2/3 Sr_1/3 MnO₃ as the ferromagnetic (FM) metallic layers (thickness 11.9 nm) and Pr_2/3 Ca_1/3 MnO₃ as the antiferromagnetic insulating spacer (IS) with thicknesses t_IS between 0.8 and 7.6 nm. Previous studies on this system showed the presence of FM inclusions within the IS, with a notable magnetization peak at t_IS ∼3 nm. Now, we show that this peak is also accompanied by a maximum in the magnetoresistance (MR). Moreover, the MR data of all the samples scale in a single curve, MR∝ M_IS ², where MIS is the magnetization of the IS. These results provide a quantitative demonstration of the feasibility to improve the response of engineered MR devices by including magnetically active IS instead of the usual nonmagnetic compounds.

Original language	English
Article number	123120
Journal	Applied Physics Letters
Volume	93
Issue number	12
DOIs	https://doi.org/10.1063/1.2992029
State	Published - 2008

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title = "Magnetotransport of manganite superlattices: Investigating the role of a magnetic insulating spacer",

abstract = "Magnetotransport data are presented for a set of manganite superlattices comprising La2/3 Sr1/3 MnO3 as the ferromagnetic (FM) metallic layers (thickness 11.9 nm) and Pr2/3 Ca1/3 MnO3 as the antiferromagnetic insulating spacer (IS) with thicknesses tIS between 0.8 and 7.6 nm. Previous studies on this system showed the presence of FM inclusions within the IS, with a notable magnetization peak at tIS ∼3 nm. Now, we show that this peak is also accompanied by a maximum in the magnetoresistance (MR). Moreover, the MR data of all the samples scale in a single curve, MR∝ MIS 2, where MIS is the magnetization of the IS. These results provide a quantitative demonstration of the feasibility to improve the response of engineered MR devices by including magnetically active IS instead of the usual nonmagnetic compounds.",

author = "D. Niebieskikwiat and Hueso, \{L. E.\} and Mathur, \{N. D.\} and Salamon, \{M. B.\}",

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T1 - Magnetotransport of manganite superlattices

T2 - Investigating the role of a magnetic insulating spacer

AU - Niebieskikwiat, D.

AU - Hueso, L. E.

AU - Mathur, N. D.

AU - Salamon, M. B.

PY - 2008

Y1 - 2008

N2 - Magnetotransport data are presented for a set of manganite superlattices comprising La2/3 Sr1/3 MnO3 as the ferromagnetic (FM) metallic layers (thickness 11.9 nm) and Pr2/3 Ca1/3 MnO3 as the antiferromagnetic insulating spacer (IS) with thicknesses tIS between 0.8 and 7.6 nm. Previous studies on this system showed the presence of FM inclusions within the IS, with a notable magnetization peak at tIS ∼3 nm. Now, we show that this peak is also accompanied by a maximum in the magnetoresistance (MR). Moreover, the MR data of all the samples scale in a single curve, MR∝ MIS 2, where MIS is the magnetization of the IS. These results provide a quantitative demonstration of the feasibility to improve the response of engineered MR devices by including magnetically active IS instead of the usual nonmagnetic compounds.

AB - Magnetotransport data are presented for a set of manganite superlattices comprising La2/3 Sr1/3 MnO3 as the ferromagnetic (FM) metallic layers (thickness 11.9 nm) and Pr2/3 Ca1/3 MnO3 as the antiferromagnetic insulating spacer (IS) with thicknesses tIS between 0.8 and 7.6 nm. Previous studies on this system showed the presence of FM inclusions within the IS, with a notable magnetization peak at tIS ∼3 nm. Now, we show that this peak is also accompanied by a maximum in the magnetoresistance (MR). Moreover, the MR data of all the samples scale in a single curve, MR∝ MIS 2, where MIS is the magnetization of the IS. These results provide a quantitative demonstration of the feasibility to improve the response of engineered MR devices by including magnetically active IS instead of the usual nonmagnetic compounds.

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U2 - 10.1063/1.2992029

DO - 10.1063/1.2992029

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SN - 0003-6951

VL - 93

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 12

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ER -

Magnetotransport of manganite superlattices: Investigating the role of a magnetic insulating spacer

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