Nonlocal Spin Valves in Metallic Nanostructures

Yoshichika Otani; Takashi Kimura

doi:10.1201/b11086-36

Nonlocal Spin Valves in Metallic Nanostructures

Yoshichika Otani, Takashi Kimura

Condensed Matter Physics

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Abstract

In Section 32.2, we describe the basic aspect of spin injection, spin accumulation, and spin current in lateral devices comprising of nonmagnetic and ferromagnetic metals. We introduce the concept of the spin resistance, that is, a measure of impedance against spin relaxation; thereby lateral spin valve structures can be expressed by equivalent spin-resistance circuits in analogy with cascaded transmission lines. This certainly facilitates designing the lateral spin valves exhibiting efficient spin injection and detection. In Section 32.3, we put our focus on the effect of the device structure, including the junction size, on the magnitude of the spin accumulation stored in the nonmagnet and also the magnitude of the spin current flowing in it. This implies that the spin injection efficiency can be tuned by connecting materials with appropriate structures and spin resistances.

Original language	English
Title of host publication	Handbook of Spin Transport and Magnetism
Publisher	CRC Press
Pages	637-647
Number of pages	11
ISBN (Electronic)	9781439803783
ISBN (Print)	9781439803776
DOIs	https://doi.org/10.1201/b11086-36
Publication status	Published - Jan 1 2016

All Science Journal Classification (ASJC) codes

Materials Science(all)
Physics and Astronomy(all)
Engineering(all)

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AB - In Section 32.2, we describe the basic aspect of spin injection, spin accumulation, and spin current in lateral devices comprising of nonmagnetic and ferromagnetic metals. We introduce the concept of the spin resistance, that is, a measure of impedance against spin relaxation; thereby lateral spin valve structures can be expressed by equivalent spin-resistance circuits in analogy with cascaded transmission lines. This certainly facilitates designing the lateral spin valves exhibiting efficient spin injection and detection. In Section 32.3, we put our focus on the effect of the device structure, including the junction size, on the magnitude of the spin accumulation stored in the nonmagnet and also the magnitude of the spin current flowing in it. This implies that the spin injection efficiency can be tuned by connecting materials with appropriate structures and spin resistances.

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Nonlocal Spin Valves in Metallic Nanostructures

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