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Orbitronics in two-dimensional materials

Tarik P. Cysne, Luis M. Canonico, Marcio Costa, R. B. Muniz, Tatiana G. Rappoport

2025npj Spintronics15 citationsDOIOpen Access PDF

Abstract

Abstract Orbitronics explores the control and manipulation of electronic orbital angular momentum in solid-state systems, opening new pathways for information processing and storage. One significant advantage of orbitronics over spintronics is that it does not rely on spin-orbit coupling, thereby broadening the range of non-magnetic materials that can be utilized for these applications. It also introduces new topological features related to electronic orbital angular momentum, and clarifies some long-standing challenges in understanding experiments that rely on the conventional concept of valley transport. This review highlights recent advances in orbitronics, particularly in relation to two-dimensional materials. We examine the fundamental principles underlying the generation, transport, and dynamics of orbital angular momentum to illustrate how the unique properties of two-dimensional materials can promote orbitronic phenomena. We also outline potential future research directions and address some outstanding questions in this field.

Topics & Concepts

SpintronicsAngular momentumOrbital motionRelation (database)Computer sciencePhysicsControl (management)Spin (aerodynamics)Angular momentum operatorTheoretical physicsNanotechnologyEngineeringAngular momentum couplingTopological Materials and Phenomena2D Materials and ApplicationsGraphene research and applications
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