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Large Two-Magnon Raman Hysteresis Observed in a Magnetically Uncompensated Hematite Coating across the Morin Transition

Jesús López‐Sánchez, Adolfo del Campo, Sara Román-Sánchez, O. Rodrı́guez de la Fuente, N. Carmona, Aída Serrano

2022Coatings19 citationsDOIOpen Access PDF

Abstract

A temperature-dependent Raman experiment between 80 and 600 K was performed in a nanoparticulated coating of single-phase hematite grown on a silica substrate. In that range, a thermal Raman shift hysteresis was identified in the vibrational modes that accompanies the Morin transition, observing large effects in the two-magnon Raman frequency position and in its relative intensity. Interestingly, no decrease in coercivity occurs when the hematite crosses the Morin transition below 230 K. The spin-flop processes produced in the coating leads to a strong decompensation of the surface spins, generating a ferromagnetic component over the whole temperature range studied. Such unusual effects might be promoted by a certain degree of structural disorder and the stresses produced by the nanoparticulation growth approach of the hematite coating. As a result, a high stability of the two-magnon excitation is obtained over a wide temperature range and considerable advances are made for the development of spintronic devices based on semiconductor antiferromagnetic materials.

Topics & Concepts

HematiteMaterials scienceRaman spectroscopyMorinCoercivityCondensed matter physicsHysteresisFerromagnetismSpintronicsAntiferromagnetismMagnonOpticsMetallurgyPhysicsPathologyMedicineIron oxide chemistry and applicationsMagnetic Properties and Synthesis of FerritesAdvanced Condensed Matter Physics
Large Two-Magnon Raman Hysteresis Observed in a Magnetically Uncompensated Hematite Coating across the Morin Transition | Litcius