M. Foygel scite author profile

Transport in ErAs:GaAs nanocomposites occurs via hopping of bound magnetic polarons between nanoparticles of magnetic semimetallic ErAs. A strong negative magnetoresistance, up to 3 orders of magnitude and strongly dependent upon ErAs particle size, is accompanied by a low field positive magnetoresistance. A model that features fluctuation controlled hopping captures this behavior.[S0031-9007 (98)08240-4] PACS numbers: 73.61. -r, 75.70.PaThe technological drive to produce magnetoelectronic materials for future magnetic field sensors and the integration of dense magnetic storage with high speed electronics requires physical understanding of transport in magnetoelectronic heterostructures. A large body of work has addressed the electronic and magnetic properties of dilute magnetic semiconductors (DMS) where localization of carriers to acceptors or donors is followed by the formation of bound magnetic polarons (BMPs) [1][2][3][4]. In marked contrast to those magnetic polarons, in this Letter, we explore nanocomposites of magnetic ErAs and GaAs in which the carriers are first strongly confined to paramagnetic, semimetallic ErAs particles embedded in GaAs.As the system develops paramagnetic susceptibility at low temperatures features associated with bound magnetic polarons emerge but the size of the BMP is that of the ErAs nanoparticle, which is controlled during molecular-beam epitaxy (MBE) growth. A striking positive magnetoresistance (MR) component precedes the anticipated strong negative MR, and it is shown to be a feature of fluctuation controlled hopping.In a DMS with a low concentration of acceptor or donor sites, carriers localized at impurities can lower their energy by inducing a spin polarization of the uniformly distributed magnetic moments encompassed by their wave function to form a BMP complex. The BMP increases the barrier for hopping transport between impurities. An external field will align all of the moments, reducing the carrier's affinity for one particular site, resulting in large negative MR. Time-resolved optical measurements have provided information about the dynamics of BMP formation [5], and the steady state effects of BMPs have been observed in transport and optical studies of Euchalcogenide alloys [1] and II-VI based DMSs [2][3][4]6]. Evidence for large polarons with sizes set by localization lengths much greater than impurity states has been found in the MBE grown III-V DMS InMnAs [7].ErAs has a small enough lattice mismatch with GaAs (11.8%) to permit epitaxial growth of ErAs layers as thick as 5 nm, ϳ20 monolayers (MLs), on a GaAs sub-strate [8]. However, the initial growth (#3 ML) is 3D. High-resolution transmission electron microscopy (TEM) demonstrated the presence of isolated ErAs islands 2-3 ML high [8]. The lateral size of the islands is a strong function of the growth temperature and we have been able to form islands in a size range of ϳ4 80 nm. By controlling the growth temperature and/or total ErAs deposition we can independently change both the island size and interisland spa...

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Moving-Boundary Model of Cryogenic Fuel Loading, I: Two-Phase Flow in a Pipe

Hafiychuk¹,

Foygel²,

Devine³

et al. 2015

Journal of Thermophysics and Heat Transfer

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M. Foygel

Theoretical and computational studies of carbon nanotube composites and suspensions: Electrical and thermal conductivity

Dopant segregation and giant magnetoresistance in manganese-doped germanium

Bound magnetic polaron hopping and giant magnetoresistance in magnetic semiconductors and nanostructures

Fluctuation Controlled Hopping of Bound Magnetic Polarons in ErAs:GaAs Nanocomposites

Moving-Boundary Model of Cryogenic Fuel Loading, I: Two-Phase Flow in a Pipe

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