Yuto Arakawa scite author profile

Yuto Arakawa

4Publications

1Citation Statement Received

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Tokyo Institute of Technology

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Spin transport in fully ferromagnetic p–n junctions

Tú

Otsuka

Arakawa

et al. 2022

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We systematically investigate the spin-dependent transport properties of fully ferromagnetic (Ga,Fe)Sb/GaSb/(In,Fe)Sb and (Ga,Fe)Sb/(In,Fe)As p–n junctions grown by low-temperature molecular beam epitaxy. The (Ga,Fe)Sb/GaSb/(In,Fe)Sb p–n junctions show high Curie temperature (170–310 K) and rectifying characteristics. The polarity and magnitude of magnetoresistance of the (Ga,Fe)Sb/GaSb/(In,Fe)Sb junctions strongly depend on the GaSb spacer thickness (t). Large positive magnetoresistance (MR, 58%) and negative MR (−1.6%) were observed at 3.7 K for the samples with t = 2 and 4 nm, respectively. When the n-type (In,Fe)Sb layer was replaced by the n-type (In,Fe)As, giant MR over 500% was observed, which can be explained by spin-valve and spin-splitting effects. Our results shed light on rich spin-transport physics observed in fully ferromagnetic p–n junctions.

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Spin dependent transport properties of spin bipolar transistors using a (Ga, Fe)Sb/(In, Fe)As p-n junction

Chonan

Arakawa

Tanaka

et al. 2019

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Spin pumping InAs/GaAs QDs: controlling linear and circular polarization

Harbord¹,

Ota²,

Shirane³

et al. 2012

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High Speed InP-based Heterojunction Bipolar Transistors

Arakawa¹,

Hirayama²,

Kishino³

et al. 2002

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Yuto Arakawa

Spin transport in fully ferromagnetic p–n junctions

Spin dependent transport properties of spin bipolar transistors using a (Ga, Fe)Sb/(In, Fe)As p-n junction

Spin pumping InAs/GaAs QDs: controlling linear and circular polarization

High Speed InP-based Heterojunction Bipolar Transistors

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