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lead sophisticated multimodal bioinformatics integration and analysis, collaborating daily with a diverse team of computational scientists and clinicians to translate complex data into actionable cancer
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hold a doctoral degree in microwave electronics, semiconductor device physics, or RF circuit design awarded no more than three years prior to the application deadline*. A strong background in one or more
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cortex of mice. We will focus on neuronal micro- and macro-circuits that influence our feeding behavior, which includes the prefrontal cortex with a focus on selection between stimuli of different value
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remote brain areas in vivo in animal models that underlie plasticity in the prefrontal cortex of mice. We will focus on neuronal micro- and macro-circuits that influence our feeding behavior, which
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– to dissect the organization and function of sensory circuits. Lab web: ki.se/en/neuro/lallemend-lab Type of scholarship The amount is tax free and it is set for twelve months at a time, paid out on a six
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We invite applications for several postdoctoral research positions in experimental quantum computing with superconducting circuits. You will work in the stimulating research environment
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an integrated development of network architectures, resource efficient algorithms, and programming paradigms for enabling an application-tailored design of dependable communication and computation systems
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build the sustainable companies and societies of the future. Subject description The research subject focuses on an integrated development of network architectures, resource efficient algorithms, and
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techniques will be viewed favourably although full training will be given: Vertebrate embryo model systems, mouse genetics and handling, generation of new mouse genetic lines, rodent motor circuits or rodent
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-smokers. The successful candidate will have a leading role in the analysis of bulk- and single cell RNA-seq data, miRNA seq data from scarce particle samples, multi-omics integration and network medicine