By specifically controlling the oxygen content in complex oxides such as LaSrMnO3, it is possible to create completely new materials that can be either antiferromagnetic insulators or ferromagnetic conductors. As a Master`s student, you will have the opportunity to study this phase transition in detail and help shape the future of information technology. Become part of our team and contribute to groundbreaking discoveries! Your tasks include in particular:
- Fabrication of the oxide layers by means of sputter deposition or spin coating
- Characterization of the properties using magnetometry, conductivity measurements, X-ray diffraction, neutron scattering and electron microscopy
Table of Content
Summary
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Benefits
- Campus Experience
- Meaningful Research
- Practical Relevance
- Scientific Enviroment
- Supervisor & Support
- Personal Responsibility
- Work-Life-Balance
- Flexibiity
Requirements
- You are studying physics, chemistry, materials science, nanoscience or a related subject at a university
- You have an interest and ideally also previous knowledge in the field of solid-state physics, physical chemistry, nanotechnology, nanoscience, and ideally also previous knowledge of scattering methods and magnetometry
- Independent and responsible way of working, commitment, high degree of teamwork, as well as enjoyment of cooperative collaboration
- You have a very good command of written and spoken English
Application Deadline
Not SpecifiedHow To Apply
Are you qualified and interested in this opportunity? Kindly go to
Forschungszentrum Jülich on www.fz-juelich.de to apply
For more information, kidnly visit FZ Julich scholarship webpage.
