Web of Science: 100 citations, Scopus: 109 citations, Google Scholar: citations,
The 2017 Magnetism Roadmap
Sander, D. (Max Planck Institute of Microstructure Physics (Germany))
Valenzuela, Sergio O. (Institut Català de Nanociència i Nanotecnologia)
Makarov, D. (Helmholtz-Zentrum Dresden Rossendorf (Germany))
Marrows, C.H. (University of Leeds. School of Physics and Astronomy (United Kingdom))
Fullerton, E.E. (University of California. Center for Memory and Recording Research (EUA))
Fischer, P. (University of California. Physics Department (EUA))
McCord, J. (Kiel University. Institute for Materials Science (Germany))
Vavassori, Paolo (IKERBASQUE. Basque Foundation for Science (España))
Mangin, S. (Université de Lorraine. Institut Jean Lamour (France))
Pirro, P. (Technische Universität Kaiserslautern. Fachbereich Physik and Landesforschungszentrum (Germany))
Hillebrands, B. (Technische Universität Kaiserslautern. Fachbereich Physik and Landesforschungszentrum (Germany))
Kent, A.D. (New York University. Department of Physics (EUA))
Jungwirth, T. (Czech Academy of Sciences. Institute of Physics (Czech Republic))
Gutfleisch, O. (TU Darmstadt. Material Science (Germany))
Kim, C.G. (DGIST. Department of Emerging Materials Science (Republic of Korea))
Berger, A. (CIC NanoGUNE (España))

Date: 2017
Abstract: Building upon the success and relevance of the 2014 Magnetism Roadmap, this 2017 Magnetism Roadmap edition follows a similar general layout, even if its focus is naturally shifted, and a different group of experts and, thus, viewpoints are being collected and presented. More importantly, key developments have changed the research landscape in very relevant ways, so that a novel view onto some of the most crucial developments is warranted, and thus, this 2017 Magnetism Roadmap article is a timely endeavour. The change in landscape is hereby not exclusively scientific, but also reflects the magnetism related industrial application portfolio. Specifically, Hard Disk Drive technology, which still dominates digital storage and will continue to do so for many years, if not decades, has now limited its footprint in the scientific and research community, whereas significantly growing interest in magnetism and magnetic materials in relation to energy applications is noticeable, and other technological fields are emerging as well. Also, more and more work is occurring in which complex topologies of magnetically ordered states are being explored, hereby aiming at a technological utilization of the very theoretical concepts that were recognised by the 2016 Nobel Prize in Physics. Given this somewhat shifted scenario, it seemed appropriate to select topics for this Roadmap article that represent the three core pillars of magnetism, namely magnetic materials, magnetic phenomena and associated characterization techniques, as well as applications of magnetism. While many of the contributions in this Roadmap have clearly overlapping relevance in all three fields, their relative focus is mostly associated to one of the three pillars. In this way, the interconnecting roles of having suitable magnetic materials, understanding (and being able to characterize) the underlying physics of their behaviour and utilizing them for applications and devices is well illustrated, thus giving an accurate snapshot of the world of magnetism in 2017. The article consists of 14 sections, each written by an expert in the field and addressing a specific subject on two pages. Evidently, the depth at which each contribution can describe the subject matter is limited and a full review of their statuses, advances, challenges and perspectives cannot be fully accomplished. Also, magnetism, as a vibrant research field, is too diverse, so that a number of areas will not be adequately represented here, leaving space for further Roadmap editions in the future. However, this 2017 Magnetism Roadmap article can provide a frame that will enable the reader to judge where each subject and magnetism research field stands overall today and which directions it might take in the foreseeable future. The first material focused pillar of the 2017 Magnetism Roadmap contains five articles, which address the questions of atomic scale confinement, 2D, curved and topological magnetic materials, as well as materials exhibiting unconventional magnetic phase transitions. The second pillar also has five contributions, which are devoted to advances in magnetic characterization, magneto-optics and magneto-plasmonics, ultrafast magnetization dynamics and magnonic transport. The final and application focused pillar has four contributions, which present non-volatile memory technology, antiferromagnetic spintronics, as well as magnet technology for energy and bio-related applications. As a whole, the 2017 Magnetism Roadmap article, just as with its 2014 predecessor, is intended to act as a reference point and guideline for emerging research directions in modern magnetism.
Note: Número d'acord de subvenció EC/FP7/308023
Note: Número d'acord de subvenció EC/H2020/696656
Note: Número d'acord de subvenció MINECO/MAT2016-75952-R
Note: Número d'acord de subvenció MINECO/SEV-2013-0295
Note: Número d'acord de subvenció MINECO/FIS2015-64519-R
Rights: Aquest document està subjecte a una llicència d'ús Creative Commons. Es permet la reproducció total o parcial, la distribució, la comunicació pública de l'obra i la creació d'obres derivades, fins i tot amb finalitats comercials, sempre i quan es reconegui l'autoria de l'obra original. Creative Commons
Language: Anglès.
Document: article ; recerca ; publishedVersion
Published in: Journal of Physics D: Applied Physics, Vol. 50, Issue 36 (September 2017) , art. 363001, ISSN 1361-6463

DOI: 10.1088/1361-6463/aa81a1

34 p, 5.3 MB

The record appears in these collections:
Research literature > UAB research groups literature > Research Centres and Groups (scientific output) > Experimental sciences > Catalan Institute of Nanoscience and Nanotechnology (ICN2)
Articles > Research articles
Articles > Published articles

 Record created 2019-06-03, last modified 2019-11-27

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