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Description of the offer : The project deals with the newly found material class of altermagnets and magnetic kagome systems, structures that behave two-dimensionally much alike van-der-Waals
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the field of x-ray spectroscopy of two-dimensional magnetic materials. The goal is the characterisation of these materials in the few- or single-monolayer limit and their controlled manipulation by external
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of processing two-dimensional arrays of these lasers with individual addressing allows targeted scanning of the environment with a focus on regions with dynamic changes in distance ratios. What you will do
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project consists of research in the field of x-ray spectroscopy of two-dimensional magnetic materials. The goal is the characterisation of these materials in the few- or single-monolayer limit and their
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of processing two-dimensional arrays of these lasers with individual addressing allows targeted scanning of the environment with a focus on regions with dynamic changes in distance ratios. What you will do
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Helmholtz-Zentrum Potsdam - Deutsches GeoForschungsZentrum GFZ | Potsdam, Brandenburg | Germany | about 1 month ago
and implement novel geo-bio-material specimen preparation methods for conventional as well as cryo-sample handling and analyses Application of various state-of-the-art multi-modal and multi-dimensional
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of processing two-dimensional arrays of these lasers with individual addressing allows targeted scanning of the environment with a focus on regions with dynamic changes in distance ratios. What you will do
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transfer process is generally lacking. In this project you will investigate ways of inducing charge doping in the magnetic two-dimensional material Cr2Ge2Te6 by fabricating van der Waals heterostructures
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, including graph algorithms, computational geometry, dimensionality reduction and visualization. We offer full-time positions with a competitive salary, 30 days of vacation, social security according
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for in vitro and in vivo approaches; improved measurement techniques that ideally push resolution limits to the single molecule level; statistical methods to deal with high-dimensional, often noisy, data