Analysis of the Transport Process Providing Spin Injection through an Fe/AlGaAs Schottky Barrier

A. Petrou; A.T. Hanbicki; B.T. Jonker; C.H. Li; G. Itskos; G. Kioseoglou; M. Yasar; O.M.J. van t Erve; R. Magno; R. Mallory

arxiv: cond-mat/0302221 · v1 · submitted 2003-02-11 · ❄️ cond-mat.mtrl-sci

Analysis of the Transport Process Providing Spin Injection through an Fe/AlGaAs Schottky Barrier

A.T. Hanbicki , O.M.J. van t Erve , R. Magno , G. Kioseoglou , C.H. Li , B.T. Jonker , G. Itskos , R. Mallory

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M. Yasar A. Petrou

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keywords algaasinjectionspintransporttunnelinganalysisbarrierdata

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Electron spin polarizations of 32% are obtained in a GaAs quantum well via electrical injection through a reverse-biased Fe/AlGaAs Schottky contact. An analysis of the transport data using the Rowell criteria demonstrates that single step tunneling is the dominant transport mechanism. The current-voltage data show a clear zero-bias anomaly and phonon signatures corresponding to the GaAs-like and AlAs-like longitudinal-optical phonon modes of the AlGaAs barrier, providing further evidence for tunneling. These results provide experimental confirmation of several theoretical analyses indicating that tunneling enables significant spin injection from a metal into a semiconductor.

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Analysis of the Transport Process Providing Spin Injection through an Fe/AlGaAs Schottky Barrier

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