Reflectionless tunneling in planar Nb/GaAs hybrid junctions
Abstract
Reflectionless-tunneling was observed in Nb/GaAs superconductor/semiconductor junctions fabricated through a two-step procedure. First, periodic δ-doped layers were grown by molecular beam epitaxy near the GaAs surface, followed by an As cap layer to protect the surface during ex-situ transfer. Second, Nb was deposited by dc-magnetron sputtering onto the GaAs(001) 2 × 4 surface in-situ after thermal desorption of the cap layer. The magnetotransport behavior of the resulting hybrid junctions was successfully analyzed within the random matrix theory of phase-coherent Andreev transport. The impact of junction morphology on reflectionless tunneling and the applicability of the fabrication technique to the realization of complex superconductor/semiconductor mesoscopic systems are discussed.
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