SPIN CONTROL IN ELECTRICALLY- AND OPTICALLY-GATED TOPOLOGICAL SPINTRONIC DEVICES

Abstract

Project Summary/Abstract This proposal describes a route toward a flexible and potent materials platform that integrates diverse approaches to spintronics, including semiconductors spintronics, quantum spintronics and topological spintronics. We will explore this approach through a collaborative effort between Professor David Awschalom (University of Chicago) and Professor Nitin Samarth (Penn State University) based upon the synthesis of hybrid materials involving ferromagnetic metals, ferromagnetic semiconductors/insulators, topological insulators and single spin systems. The proposed effort focuses on a fundamental understanding of device-motivated phenomena in these materials, leveraging materials and physics discoveries made during the previous funding period. The collaborative project continues an established research record that integrates complementary state-of-the-art experimental techniques in condensed matter physics and materials physics directed towards technological goals relevant to the DOD mission. Our proposed experiments fall under the following general categories: • Design and synthesis of new families of hybrid heterostructures that interface spintextured Dirac electrons in topological three-dimensional and two-dimensional topological insulators with metallic, semiconducting and insulating ferromagnets and with single spin environments. • Spatio-temporal spectroscopy of patterned and opto-electronically gated topological spintronic devices. • Opto-electronic generation & control of spin currents in topological spintronic devices. • Coherent manipulation of localized spins (local moments, nuclear spins and defect spins) in topological spintronic devices.

Document Details

Document Type

DoD Grant Award

Publication Date

Aug 12, 2016

Source ID

N000141512369

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