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Magnetic and electronic phase transitions probed by nanomechanical resonators

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Magnetic and electronic phase transitions probed by nanomechanical resonators

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dc.contributor.author Siskins, Makars
dc.contributor.author Lee, Martin
dc.contributor.author Mañas Valero, Samuel
dc.contributor.author Coronado Miralles, Eugenio
dc.contributor.author Blanter, Yaroslav M.
dc.contributor.author Van der Zant, H. S. J.
dc.contributor.author Steeneken, P. G.
dc.date.accessioned 2021-05-26T15:50:20Z
dc.date.available 2021-05-26T15:50:20Z
dc.date.issued 2020
dc.identifier.citation Siskins, Makars Lee, Martin Mañas Valero, Samuel Coronado Miralles, Eugenio Blanter, Yaroslav M. Van der Zant, H.S.J. Steeneken, P. G. 2020 Magnetic and electronic phase transitions probed by nanomechanical resonators Nature Communications 11 2698 1 7
dc.identifier.uri https://hdl.handle.net/10550/79459
dc.description.abstract The reduced dimensionality of two-dimensional (2D) materials results in characteristic types of magnetically and electronically ordered phases. However, only few methods are available to study this order, in particular in ultrathin insulating antiferromagnets that couple weakly to magnetic and electronic probes. Here, we demonstrate that phase transitions in thin membranes of 2D antiferromagnetic FePS3, MnPS3 and NiPS3 can be probed mechanically via the temperature-dependent resonance frequency and quality factor. The observed relation between mechanical motion and antiferromagnetic order is shown to be mediated by the specific heat and reveals a strong dependence of the Néel temperature of FePS3 on electrostatically induced strain. The methodology is not restricted to magnetic order, as we demonstrate by probing an electronic charge-density-wave phase in 2H-TaS2. It thus offers the potential to characterize phase transitions in a wide variety of materials, including those that are antiferromagnetic, insulating or so thin that conventional bulk characterization methods become unsuitable.
dc.language.iso eng
dc.relation.ispartof Nature Communications, 2020, vol. 11, num. 2698 , p. 1-7
dc.subject Materials
dc.title Magnetic and electronic phase transitions probed by nanomechanical resonators
dc.type journal article es_ES
dc.date.updated 2021-05-26T15:50:21Z
dc.identifier.doi 10.1038/s41467-020-16430-2
dc.identifier.idgrec 140663
dc.rights.accessRights open access es_ES

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