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Article Dans Une Revue ACS Nano Année : 2022

The Magnetic Genome of Two-Dimensional van der Waals Materials

1 ASU - Arizona State University [Tempe]
2 Max Planck Institute of Microstructure Physics
3 ICMol - Instituto de Ciencia Molecular
4 Columbia University [New York]
5 Department of Physics [Harvard University]
6 Universität Duisburg-Essen = University of Duisburg-Essen [Essen]
7 NUS - National University of Singapore
8 Condensed Matter Physics and Materials Sciences Department
9 LANL - Los Alamos National Laboratory
10 1. Physikalisches Institut [Stuttgart]
11 Kumoh National Institute of Technology [Gumi]
12 DIPC - Donostia International Physics Center
13 SUPA School of Physics and Astronomy [Edinburgh]
14 DPPU - Department of Physics, Princeton University
15 IFM - Institute for Frontier Materials
16 Department of Physics, Columbia University
17 Ikerbasque - Basque Foundation for Science
18 BRTA - Basque Research and Technology Alliance
19 University of York [York, UK]
20 SPINTEC - SPINtronique et TEchnologie des Composants
21 IUF - Institut Universitaire de France
22 University of Manchester [Manchester]
23 TTU - Texas Tech University [Lubbock]
24 Department of Physics, University of Michigan
25 IQC - Institute for Quantum Computing [Waterloo]
26 HWU - Heriot-Watt University [Edinburgh]
27 LMU - Laboratory for Muon-Spin Spectroscopy
28 NHMFL - National High Magnetic Field Laboratory
29 LBNL - Lawrence Berkeley National Laboratory [Berkeley]
30 Princeton Institute for the Science and Technology of Materials
31 Laboratoire Albert Fert (ex-UMPhy Unité mixte de physique CNRS/Thales)
32 UPV/EHU - Universidad del Pais Vasco / Euskal Herriko Unibertsitatea [Espagne]
33 Rice University [Houston]
34 Donostia International Physics Center - DIPC (SPAIN)
Qing Hua Wang
Maciej Koperski
Artem Mishchenko
Rui He
Brian D. Gerardot
Xavier Roy
Sefaattin Tongay
Luis Balicas

Résumé

Magnetism in two-dimensional (2D) van der Waals (vdW) materials has recently emerged as one of the most promising areas in condensed matter research, with many exciting emerging properties and significant potential for applications ranging from topological magnonics to low-power spintronics, quantum computing, and optical communications. In the brief time after their discovery, 2D magnets have blossomed into a rich area for investigation, where fundamental concepts in magnetism are challenged by the behavior of spins that can develop at the single layer limit. However, much effort is still needed in multiple fronts before 2D magnets can be routinely used for practical implementations. In this comprehensive review, prominent authors with expertise in complementary fields of 2D magnetism (i.e., synthesis, device engineering, magneto-optics, imaging, transport, mechanics, spin excitations, and theory and simulations) have joined together to provide a genome of current knowledge and a guideline for future developments in 2D magnetic materials research.
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Dates et versions

hal-03652214 , version 1 (26-04-2022)
hal-03652214 , version 2 (25-05-2022)

Identifiants

Citer

Qing Hua Wang, Amilcar Bedoya-Pinto, Mark Blei, Avalon H. Dismukes, Assaf Hamo, et al.. The Magnetic Genome of Two-Dimensional van der Waals Materials. ACS Nano, 2022, pp.6960-7079. ⟨10.1021/acsnano.1c09150⟩. ⟨hal-03652214v2⟩
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