Towards coherent spin precession in pure-spin current

Hiroshi Idzuchi; Yasuhiro Fukuma; Yoshichika Otani

doi:10.1038/srep00628

Towards coherent spin precession in pure-spin current

Hiroshi Idzuchi, Yasuhiro Fukuma, Yoshichika Otani

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

18 Citations (Scopus)

Abstract

Non-local spin injection in lateral spin valves generates a pure spin current which is a diffusive flow of spins (i.e. spin angular momentums) with no net charge flow. The diffusive spins lose phase coherency in precession while undergoing frequent collisions and these events lead to a broad distribution of the dwell time in a transport channel between the injector and the detector. Here we show the lateral spin-valves with dual injectors enable us to detect a genuine in-plane precession signal from the Hanle effect, demonstrating the phase coherency in the in-plane precession is improved with an increase of the channel length. The coherency in the spin precession shows a universal behavior as a function of the normalized separation between the injector and the detector in material-independent fashion for metals and semiconductors including graphene.

Original language	English
Article number	628
Journal	Scientific reports
Volume	2
DOIs	https://doi.org/10.1038/srep00628
Publication status	Published - 2012
Externally published	Yes

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title = "Towards coherent spin precession in pure-spin current",

abstract = "Non-local spin injection in lateral spin valves generates a pure spin current which is a diffusive flow of spins (i.e. spin angular momentums) with no net charge flow. The diffusive spins lose phase coherency in precession while undergoing frequent collisions and these events lead to a broad distribution of the dwell time in a transport channel between the injector and the detector. Here we show the lateral spin-valves with dual injectors enable us to detect a genuine in-plane precession signal from the Hanle effect, demonstrating the phase coherency in the in-plane precession is improved with an increase of the channel length. The coherency in the spin precession shows a universal behavior as a function of the normalized separation between the injector and the detector in material-independent fashion for metals and semiconductors including graphene.",

author = "Hiroshi Idzuchi and Yasuhiro Fukuma and Yoshichika Otani",

note = "Funding Information: This work is partly supported by Grant-in-Aid for Scientific Research (A) (No. 23244071) and Young Science Aid (A) (No. 23681032) from the Ministry of Education, Culture, Sports, Science and Technology, Japan.",

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doi = "10.1038/srep00628",

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AU - Idzuchi, Hiroshi

AU - Fukuma, Yasuhiro

AU - Otani, Yoshichika

N1 - Funding Information: This work is partly supported by Grant-in-Aid for Scientific Research (A) (No. 23244071) and Young Science Aid (A) (No. 23681032) from the Ministry of Education, Culture, Sports, Science and Technology, Japan.

PY - 2012

Y1 - 2012

N2 - Non-local spin injection in lateral spin valves generates a pure spin current which is a diffusive flow of spins (i.e. spin angular momentums) with no net charge flow. The diffusive spins lose phase coherency in precession while undergoing frequent collisions and these events lead to a broad distribution of the dwell time in a transport channel between the injector and the detector. Here we show the lateral spin-valves with dual injectors enable us to detect a genuine in-plane precession signal from the Hanle effect, demonstrating the phase coherency in the in-plane precession is improved with an increase of the channel length. The coherency in the spin precession shows a universal behavior as a function of the normalized separation between the injector and the detector in material-independent fashion for metals and semiconductors including graphene.

AB - Non-local spin injection in lateral spin valves generates a pure spin current which is a diffusive flow of spins (i.e. spin angular momentums) with no net charge flow. The diffusive spins lose phase coherency in precession while undergoing frequent collisions and these events lead to a broad distribution of the dwell time in a transport channel between the injector and the detector. Here we show the lateral spin-valves with dual injectors enable us to detect a genuine in-plane precession signal from the Hanle effect, demonstrating the phase coherency in the in-plane precession is improved with an increase of the channel length. The coherency in the spin precession shows a universal behavior as a function of the normalized separation between the injector and the detector in material-independent fashion for metals and semiconductors including graphene.

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Towards coherent spin precession in pure-spin current

Abstract

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