Spin accumulation at in-situ grown Fe/GaAs(100) Schottky barriers measured using the three- and four-terminal methods

Authors
Nam, Song HyeonPark, Tae-EonPark, Youn HoIhm, Hae-InKoo, Hyun CheolKim, Hyung-junHan, Suk HeeChang, Joonyeon
Issue Date
2016-09-19
Publisher
AMER INST PHYSICS
Citation
APPLIED PHYSICS LETTERS, v.109, no.12
Abstract
We examined the spin accumulation in Fe/n-GaAs Schottky barriers to evaluate the accuracy of the three-terminal ( 3T) and four-terminal ( 4T) measurement geometries. A fully epitaxial Fe/n-GaAs junction was grown in situ using cluster molecular beam epitaxy without breaking the vacuum to exclude the formation of an oxide layer or surface roughness at the interface during intermixing. The spin resistance of the 4T nonlocal spin valve ( Delta R-NLSV = 0.71 Omega) was twice the value obtained using the 4T Hanle effect method ( Delta R-4TH = 0.35 Omega) at 10K, as predicted theoretically, and this value remained constant over the temperature range examined, from 10K to 77 K. The temperature-dependent spin lifetimes measured using the 3T and 4T Hanle effects exhibited similar behaviors. Although the spin resistance obtained using the 3T Hanle effect was enhanced compared with that obtained using the 4T effect, it was reasonable to conclude that the spin signals obtained from the 3T and 4T measurements originated from spin accumulation in n-GaAs due to the absence of an oxide tunnel barrier or a well-defined interface in our samples. These results completely ruled out any other sources of artifacts. Published by AIP Publishing.
Keywords
ELECTRICAL DETECTION; SILICON; PRECESSION; TRANSPORT; ELECTRICAL DETECTION; SILICON; PRECESSION; TRANSPORT; spin accumulation; Fe/GaAs Schottky barriers; non local measurement; three terminal measurement; four terminal measurement
ISSN
0003-6951
URI
https://pubs.kist.re.kr/handle/201004/123667
DOI
10.1063/1.4963281
Appears in Collections:
KIST Article > 2016
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