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Main Authors: Dagur, Deepak, Finardi, Alice Margherita, Polewczyk, Vincent, Petrov, Aleksandr Yu., Dolabella, Simone, Motti, Federico, Sharma, Hemanita, Dobovicnik, Edvard, Giugni, Andrea, Rossi, Giorgio, Fasolato, Claudia, Torelli, Piero, Vinai, Giovanni
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2408.14167
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author Dagur, Deepak
Finardi, Alice Margherita
Polewczyk, Vincent
Petrov, Aleksandr Yu.
Dolabella, Simone
Motti, Federico
Sharma, Hemanita
Dobovicnik, Edvard
Giugni, Andrea
Rossi, Giorgio
Fasolato, Claudia
Torelli, Piero
Vinai, Giovanni
author_facet Dagur, Deepak
Finardi, Alice Margherita
Polewczyk, Vincent
Petrov, Aleksandr Yu.
Dolabella, Simone
Motti, Federico
Sharma, Hemanita
Dobovicnik, Edvard
Giugni, Andrea
Rossi, Giorgio
Fasolato, Claudia
Torelli, Piero
Vinai, Giovanni
contents Multiferroic heterostructures have gained in recent years a renewed role in spintronic applications due to their possibility in controlling the magnetic properties via interfacial coupling by exploiting the ferroelectric response to various external stimuli. Whereas the main mechanisms ruling the converse magnetoelectric coupling are considered as established, the research on how to optimize the ferroelectric properties is an active field. In particular the complex phase diagram of [Pb(Mg1/3Nb2/3)O3]-x[PbTiO3] (PMN-xPT) single crystals, that present relaxor ferroelectric and photovoltaic properties, deserves further investigation. For instance, crystalline quality and thermal stability of the ferroelectric domains in heterostructures need assessment. Here we show how, by thermal annealing over the ferroelectric Curie temperature and then cooling PMN-0.4PT/Fe heterostructures in inert atmosphere the domain population is significantly modified, evolving from a highly disordered, mostly out-of-plane domain population, to improved crystallinity and prevalent in-plane oriented domains. Upon further annealing, the domain population switches back to prevalent out-of-plane orientation suggesting that intermediate annealing steps can freeze PMN-0.4PT domain population in a metastable configuration. The structural analysis was carried out by combining micro-Raman and X-ray diffraction (XRD) measurements. In the three states the magnetic properties of interfacial Fe thin film are affected by the ferroelectric configurations as a consequence of changing interfacial strain, evolving from an isotropic behavior to an anisotropic one and back.
format Preprint
id arxiv_https___arxiv_org_abs_2408_14167
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Thermal treatment effects on PMN-0.4PT/Fe multiferroic heterostructures
Dagur, Deepak
Finardi, Alice Margherita
Polewczyk, Vincent
Petrov, Aleksandr Yu.
Dolabella, Simone
Motti, Federico
Sharma, Hemanita
Dobovicnik, Edvard
Giugni, Andrea
Rossi, Giorgio
Fasolato, Claudia
Torelli, Piero
Vinai, Giovanni
Materials Science
Multiferroic heterostructures have gained in recent years a renewed role in spintronic applications due to their possibility in controlling the magnetic properties via interfacial coupling by exploiting the ferroelectric response to various external stimuli. Whereas the main mechanisms ruling the converse magnetoelectric coupling are considered as established, the research on how to optimize the ferroelectric properties is an active field. In particular the complex phase diagram of [Pb(Mg1/3Nb2/3)O3]-x[PbTiO3] (PMN-xPT) single crystals, that present relaxor ferroelectric and photovoltaic properties, deserves further investigation. For instance, crystalline quality and thermal stability of the ferroelectric domains in heterostructures need assessment. Here we show how, by thermal annealing over the ferroelectric Curie temperature and then cooling PMN-0.4PT/Fe heterostructures in inert atmosphere the domain population is significantly modified, evolving from a highly disordered, mostly out-of-plane domain population, to improved crystallinity and prevalent in-plane oriented domains. Upon further annealing, the domain population switches back to prevalent out-of-plane orientation suggesting that intermediate annealing steps can freeze PMN-0.4PT domain population in a metastable configuration. The structural analysis was carried out by combining micro-Raman and X-ray diffraction (XRD) measurements. In the three states the magnetic properties of interfacial Fe thin film are affected by the ferroelectric configurations as a consequence of changing interfacial strain, evolving from an isotropic behavior to an anisotropic one and back.
title Thermal treatment effects on PMN-0.4PT/Fe multiferroic heterostructures
topic Materials Science
url https://arxiv.org/abs/2408.14167