[특허]GMR configuration with enhanced spin filtering

[미국특허] GMR configuration with enhanced spin filtering 원문보기

IPC분류정보
국가/구분	United States(US) Patent 등록
국제특허분류(IPC7판)	G11B-005/33 G11B-005/127 G11B-005/31 G11B-005/39
출원번호	US-0791021 (2004-03-02)
발명자 / 주소	Chang, Jei-Wei Dieny, Bernard Chen, Mao-Min Horng, Cheng T. Ju, Kochan Liao, Simon
출원인 / 주소	Headway Technologies, Inc.
인용정보	피인용 횟수 : 20 인용 특허 : 9

초록 ▼

Disclosed is a method of making a SVGMR sensor element. In the first embodiment a buffer layer is formed between a seed layer and a ferromagnetic (FM) free layer, the buffer layer being composed of alpha-Fe2O3 having a crystal lattice constant that is close to the FM free layer's crystal constant and has the same crystal structure. The metal oxide buffer layer enhances the specular scattering. In the second embodiment, a high conductivity layer (HCL) is formed over the buffer layer to create a spin filter-SVGMR. The HCL layer enhances the GMR ratio of the spin filter SVGMR. The third embodiment include a pinned FM layer comprising a three layer structure of a lower AP layer, a space layer (e.g., Ru) and an upper AP layer.

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1. A method for forming a spin valve giant magnetoresostive (SVGMR) sensor element comprising:forming a seed layer over a substrate, the seed layer being formed of a material selected from the group consisting of nickel chromium alloys, nickel-chromium-copper alloys and nickel-iron-chromium alloys; forming a metal oxide buffer layer over the seed layer, said metal oxide buffer layer being comprised of alpha-Fe2O3 and said metal oxide buffer layer having a thickness between about 5 and 15 A; forming a free ferromagnetic layer over said metal oxide buffer layer, wherein said free ferromagnetic layer and said metal oxide buffer layer have the same crystal structure and said free ferromagnetic layer and said metal oxide buffer layer have about the same lattice constants; forming a non-magnetic conductor spacer layer over said free ferromagnetic layer; forming a pinned ferromagnetic layer over the non-magnetic conductor spacer layer; and forming a pinning material layer over the pinned ferromagnetic layer; and forming a capping layer over said pinning material layer. 2. The method of claim 1 including:forming a high conductivity layer (HCL) on said metal oxide buffer layer and forming said free ferromagnetic layer on said high conductivity layer (HCL). 3. The method of claim 1 including forming a high conductivity layer (HCL) on said metal oxide buffer layer and forming said free ferromagnetic layer on said high conductivity layer (HCL); said high conductivity layer is comprised of Cu or Cu?Ni alloy and has a thickness between 10 and 30 A, thereby creating a spin filter giant magnetoresistance (GMR) sensor element.4. The method of claim 1 wherein said seed layer is comprised of NiFeCr.5. The method of claim 1 wherein said free ferromagnetic layer is comprised of CoFe, CoFe/NiFe, or Co/NiFe and has a thickness of 20 to 30 A.6. The method of claim 1 wherein the free ferromagnetic material layer and the pinned ferromagnetic material layer are each formed of a ferromagnetic material selected from the group consisting of nickel, iron and cobalt ferromagnetic materials, alloys thereof, laminates thereof and laminates of alloys thereof.7. The method of claim 1 wherein said pinned ferromagnetic layer is composed of a material selected from the group consisting of CoFe and Co; and has a thickness of between about 10 and 30 A.8. The method of claim 1 wherein a pinning material layer is comprised of a material selected from the group consisting of MnPt, IrMn and MnNi.9. The method of claim 1 wherein said capping layer consists of material selected from the group consisting of MiFeCo, NiCr, and Ta and has a thickness between about 40 and 60 A.10. A method for forming a spin filter giant magnetoresistive sensor element comprising:forming a seed layer over a substrate, said seed layer being formed of a material selected from the group consisting of nickel chromium alloys, nickel-chromium-copper alloys and nickel-iron-chromium alloys; forming a metal oxide buffer layer over the seed layer, said metal oxide buffer layer being comprised of alpha-Fe2O3 and said metal oxide buffer layer being formed to a thickness between about 5 and 15 A; forming a high conductivity layer on said metal oxide layer; forming a free ferromagnetic layer over said metal oxide buffer layer, wherein said free ferromagnetic layer and said metal oxide buffer layer have the same crystal structure and said free ferromagnetic layer and said metal oxide buffer layer have about the same lattice constants; forming a non-magnetic conductor spacer layer over said free ferromagnetic layer; forming a pinned ferromagnetic layer over the non-magnetic conductor spacer layer; and forming a pinning material layer over the pinned ferromagnetic layer; and forming a capping layer over said pinning material layer. 11. The method of claim 10, wherein said high conductivity layer is comprised of Cu or Cu?Ni and has a thickness between 10 and 30 A.12. The method of claim 11, wherein said pinned ferromagnetic layer is formed as a three layer structure comprising: (a) a lower AP layer, (b) a non-magnetic conductor spacer layer and (c) a upper AP layer wherein aid non-magnetic conductor spacer layer induces anti-ferromagnetic coupling between said lower AP layer and said upper AP layer which enhances the Pinning effect.

이 특허에 인용된 특허 (9) 인용/피인용 타임라인 분석

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Chang, Jei-Wei; Dieny, Bernard; Chen, Mao-Min; Horng, Cheng; Ju, Kochan; Liao, Simon, GMR configuration with enhanced spin filtering.
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Horng Cheng T. ; Tong Ru-Ying ; Ju Kochan ; Chen Mao-Min ; Chang Jei-Wei ; Liao Simon H., Giant magnetoresistive (GMR) sensor element with enhanced magnetoresistive (MR) coefficient.
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[미국특허] GMR configuration with enhanced spin filtering 원문보기

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