Effect of microstructures on exchange anisotropy in mn-ir/ni-fe exchange-biased mutilayers with various stacking structures

Jae Chul Ro; Young Suk Choi; Su Jung Suh; Hwack Joo Lee

doi:10.1109/20.800710

Effect of microstructures on exchange anisotropy in mn-ir/ni-fe exchange-biased mutilayers with various stacking structures

Jae Chul Ro
, Young Suk Choi
, Su Jung Suh
, Hwack Joo Lee

Department of Advanced Materials Science and Engineering

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

16 Scopus citations

Abstract

The magnetic properties and the microstructiires of the Mn-Ir/Ni-Fe multilayers with various stacking structures and buffer layer materials have been investigated. The (111) texture of Mn-Ir/Ni-Fe is obtained in the top structures with Ta or Zr buffer. However, all mutilayers which contain Mn-Ir films deposited on Ni-Fe films exhibit high H, regardless of the (111) preferred orientation of Mn-Ir film. The TS multilayers which show high Hex have large Mn-Ir grains at the interface, compared with BS multilayers without exchange anisotropy. The multilayers which reveal the exchange anisotropy also have the grain-to-grain epitaxial tendency at interface of Mn-Ir/Ni-Fe. It is concluded that the Hcx is not related to the (111) texture of the Mn-Ir film, but related to the grain size of the Mn-Ir film and the morphology at the interface between the Mn-Ir and the Ni-Fe grains,.

Original language	English
Pages (from-to)	3925-3927
Number of pages	3
Journal	IEEE Transactions on Magnetics
Volume	35
Issue number	5 PART 2
DOIs	https://doi.org/10.1109/20.800710
State	Published - 1999

Keywords

(111) texture
Buffer layer
Hx, epitaxial tendency
Mii-ir/ni-fe
Stacking structure
The grain size of mn-ir

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10.1109/20.800710

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title = "Effect of microstructures on exchange anisotropy in mn-ir/ni-fe exchange-biased mutilayers with various stacking structures",

abstract = "The magnetic properties and the microstructiires of the Mn-Ir/Ni-Fe multilayers with various stacking structures and buffer layer materials have been investigated. The (111) texture of Mn-Ir/Ni-Fe is obtained in the top structures with Ta or Zr buffer. However, all mutilayers which contain Mn-Ir films deposited on Ni-Fe films exhibit high H, regardless of the (111) preferred orientation of Mn-Ir film. The TS multilayers which show high Hex have large Mn-Ir grains at the interface, compared with BS multilayers without exchange anisotropy. The multilayers which reveal the exchange anisotropy also have the grain-to-grain epitaxial tendency at interface of Mn-Ir/Ni-Fe. It is concluded that the Hcx is not related to the (111) texture of the Mn-Ir film, but related to the grain size of the Mn-Ir film and the morphology at the interface between the Mn-Ir and the Ni-Fe grains,.",

keywords = "(111) texture, Buffer layer, Hx, epitaxial tendency, Mii-ir/ni-fe, Stacking structure, The grain size of mn-ir",

author = "Ro, \{Jae Chul\} and Choi, \{Young Suk\} and Suh, \{Su Jung\} and Lee, \{Hwack Joo\}",

year = "1999",

doi = "10.1109/20.800710",

language = "English",

volume = "35",

pages = "3925--3927",

journal = "IEEE Transactions on Magnetics",

issn = "0018-9464",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

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TY - JOUR

T1 - Effect of microstructures on exchange anisotropy in mn-ir/ni-fe exchange-biased mutilayers with various stacking structures

AU - Ro, Jae Chul

AU - Choi, Young Suk

AU - Suh, Su Jung

AU - Lee, Hwack Joo

PY - 1999

Y1 - 1999

N2 - The magnetic properties and the microstructiires of the Mn-Ir/Ni-Fe multilayers with various stacking structures and buffer layer materials have been investigated. The (111) texture of Mn-Ir/Ni-Fe is obtained in the top structures with Ta or Zr buffer. However, all mutilayers which contain Mn-Ir films deposited on Ni-Fe films exhibit high H, regardless of the (111) preferred orientation of Mn-Ir film. The TS multilayers which show high Hex have large Mn-Ir grains at the interface, compared with BS multilayers without exchange anisotropy. The multilayers which reveal the exchange anisotropy also have the grain-to-grain epitaxial tendency at interface of Mn-Ir/Ni-Fe. It is concluded that the Hcx is not related to the (111) texture of the Mn-Ir film, but related to the grain size of the Mn-Ir film and the morphology at the interface between the Mn-Ir and the Ni-Fe grains,.

AB - The magnetic properties and the microstructiires of the Mn-Ir/Ni-Fe multilayers with various stacking structures and buffer layer materials have been investigated. The (111) texture of Mn-Ir/Ni-Fe is obtained in the top structures with Ta or Zr buffer. However, all mutilayers which contain Mn-Ir films deposited on Ni-Fe films exhibit high H, regardless of the (111) preferred orientation of Mn-Ir film. The TS multilayers which show high Hex have large Mn-Ir grains at the interface, compared with BS multilayers without exchange anisotropy. The multilayers which reveal the exchange anisotropy also have the grain-to-grain epitaxial tendency at interface of Mn-Ir/Ni-Fe. It is concluded that the Hcx is not related to the (111) texture of the Mn-Ir film, but related to the grain size of the Mn-Ir film and the morphology at the interface between the Mn-Ir and the Ni-Fe grains,.

KW - (111) texture

KW - Buffer layer

KW - Hx, epitaxial tendency

KW - Mii-ir/ni-fe

KW - Stacking structure

KW - The grain size of mn-ir

UR - https://www.scopus.com/pages/publications/0033184030

U2 - 10.1109/20.800710

DO - 10.1109/20.800710

M3 - Article

AN - SCOPUS:0033184030

SN - 0018-9464

VL - 35

SP - 3925

EP - 3927

JO - IEEE Transactions on Magnetics

JF - IEEE Transactions on Magnetics

IS - 5 PART 2

ER -

Effect of microstructures on exchange anisotropy in mn-ir/ni-fe exchange-biased mutilayers with various stacking structures

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Keywords

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