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Description of the offer : In this exciting new project, the PhD student will develop novel synthetic methodologies to produce well-controlled, conformal multiferroic thin film compositions and
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multi-magnons within thin films of magnetic perovskites using X-ray spectroscopy. The project combines theoretical and experimental work, involving preparation and in-depth characterization of magnetic
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thin film deposition and patterning, as well as structural and magnetic characterization of magnetic films and nanostructures at local and international facilities.
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exchange spin waves in a thin YIG film [5]. In this project, we aim at combining both ideas, and explore configurations of magnetic nanostructures coupled to a continuous thin film that can create
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European Magnetism Association EMA | Villeneuve la Garenne, le de France | France | about 1 month ago
of magnetoacoustic resonators (SAW and magnetoelastic thin film) with diamond structures containing defects with controlled position and density, produced and characterized in collaboration with the LSPM (Laboratoire
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methods, Monte-Carlo simulation, and pulsed-laser-deposition of oxide thin films. The PhD project unites our internationally leading expertise in nonlinear laser spectroscopy and ferroic materials. Its aim
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dielectric characterization methods, Monte-Carlo simulation, and pulsed-laser-deposition of oxide thin films. The PhD project aims at combining our internationally leading expertise in (non-)linear imaging
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per week from the 3rd year is possible. Your tasks - Experiments using ferromagnetic resonance - Sample patterning (electron beam litography, optical litography) - Thin film fabrication Your profile
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characterization methods, Monte-Carlo simulation, and pulsed-laser-deposition of oxide thin films. The PhD project unites our internationally leading expertise in pulsed-laser spectroscopy, ultrafast dynamical
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viable market level. The thesis main topic will be the preparation of novel thermomagnetic bulk materials and thin films and their multiscale magnetic and structural characterization. Three secondments