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Intitulé du poste : Thèse - magnetoelectric materials
Ville : Grenoble et Caen
Laboratoire/Institut : Laboratoire CRISMAT (Caen) - Institut Laue Langevin (Grenoble)
Description du poste : Ordered Spinels for Magnetoelectric Properties
For the last 15 years, the studies of multiferroic materials are one of the most enthusiastic subjects in condensed matter field of research. A multiferroic compound presents two simultaneous ferroic orders (ferroelectric, ferromagnetic or ferroelastic). For the magnetoelectric (ME) multiferroic materials the magnetization can be controlled by the electric fields. Such properties open the way of new spintronic devises with various applications. The spinel structures AB2O4 are very well known for their numerous magnetic properties and recently CoCr2O4 has been investigate as ME-multiferroic (type II) compounds. In that case, the appearance of the incommensurate conical-spiral magnetic order directly involves the ferroelectricity. Moreover, the magnetic dilution on the B-sites for the series CoII(CrIII1-xCoIIIx)O4, significantly increases both statured electric polarization and magnetization under magnetic field. On the other hand, the magnetic dilution on the A-sites for the series Zn1-XCoXCr2O4 causes the disappearance of the ferromagnetic ordering to benefit to frustrated antiferromagnetism. At the CRISMAT we recently start to study the spinel family Co5-xZnxTeO8. In those compounds the Te6+ cation plays the role of a B-site magneto-diluting agent and enables to get ordered spinel. On the other side the Zn2+ cation plays the role of A-site magneto-diluting agent. The Co5-xZnxTeO8 series appears as very versatile spinel family since we can perfectly decide on which sites the magnetic dilution will take place and easily modify the ME properties. The aim of this project is to continue the investigation of this remarkable Co5-xZnxTeO8 spinel series. A special attention will be paid on ordered spinel compounds Co5-xZnxTeO8 with 0 < x < 1 to establish the magnetic phase diagram and the evolution of ME coupling versus x. We will also investigate other chemical systems to find novel ordered spinel phases. All the compounds will be synthesized by solid state reactions and their structures (nuclear and magnetic) characterized by X-ray and neutron diffraction. An important part of the synthesis work will be consecrated to grow single-crystals of sufficient sizes to characterize the dielectric properties and the complex magnetic structures.
Location and Salary
The PhD project will be located in Grenoble (France), at the ILL, and at the CRISMAT in Caen (France). The successful candidate will be employed for a period of up to three years, with a gross salary of around 2350 €/month, together with other benefits depending on the student’s social status (for more details see: http://www.ill.eu/science-technology/phd-students/phd-recruitment/phd-work-at-the-ill/). A team of experts, including Nicolas Barrier, Emmanuelle Suard, Juan Rodriguez-Carvajal and Alain Pautrat , will supervise the work of the PhD student.
Profile
Applicants should have a Master degree in solid state chemistry or in physic. Academic knowledge of condensed matter physics and crystallography will be appreciated. Good English communication skills (oral and written) are also required.
Supervisors
Dr. Nicolas Barrier, Univ. of Caen Normandie, and Dr. Emmanuelle Suard, ILL (Grenoble). Contact information: To apply, please send a letter of motivation and a CV (with 2 recommendation letters) to Dr. Nicolas Barrier, Cette adresse e-mail est protégée contre les robots spammeurs. Vous devez activer le JavaScript pour la visualiser.. For more information on the CRISMAT please visit our web site: www-crismat.ensicaen.fr
Durée du contrat : 3 ans
Date de prise de fonction : 01-10-2017
Personne à contacter : Nicolas Barrier
Téléphone : 02 31 45 26 31
Email : Cette adresse e-mail est protégée contre les robots spammeurs. Vous devez activer le JavaScript pour la visualiser.