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Topological materials by molecular beam epitaxy

Matthew Brahlek, Jason Lapano, Joon Sue Lee

2020Journal of Applied Physics42 citationsDOIOpen Access PDF

Abstract

Topology appears across condensed matter physics to describe a wide array of phenomena which could alter, augment, or fundamentally change the functionality of many technologies. Linking the basic science of topological materials to applications requires producing high-quality thin films. This will enable combining dissimilar materials while utilizing dimensionality, symmetry, and strain to create or control the electronic phase, as well as platforms to fabricate novel devices. Yet, one of the longstanding challenges in the field remains understanding and controlling the basic material properties of epitaxial thin films. The aim of this Perspective article is to discuss how understanding the fundamental properties of topological materials grown by molecular beam epitaxy (MBE) is key to deepening the knowledge of the basic physics, while developing a new generation of topological devices. A focus will be on the MBE growth of intrinsic materials, creation, and control of superconducting and magnetic topological phases. Addressing these questions in the coming decade will undoubtedly uncover many surprises as new materials are discovered and their growth as high-quality thin films is refined.

Topics & Concepts

Molecular beam epitaxyTopology (electrical circuits)NanotechnologyThin filmMaterials scienceEpitaxyEngineering physicsPhysicsElectrical engineeringEngineeringLayer (electronics)Topological Materials and PhenomenaElectronic and Structural Properties of OxidesAdvanced Condensed Matter Physics
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