10 parallel-computing-numerical-methods-"Prof" Postdoctoral positions at MASARYK UNIVERSITY
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involved in exploring genomic data generated on primary leukemic samples, using computational methods. We are interested in specific features resulting from chromosome (re)organization and their functional
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such frameworks to create cross-disciplinary bridges between computational and clinical neuroscience. Specifically, candidates should have an interest in applying computational methods to address the identification
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of Science, Masaryk University announces an open competition for the position POSTDOC POSITION in Computational Condensed Matter Physics Workplace: Department of Condensed Matter Physics, Faculty of Science
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: The research group of prof. Michal Masařík is a biomedical laboratory dedicated to exploring the molecular mechanisms that drive cancer progression, with a particular emphasis on the tumour microenvironment (TME
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and demonstrated excellence in related fields with an excellent background in empirical methods and interdisciplinary research interests solid knowledge of spatial econometrics is welcomed with research
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about the Center for Research on Modern Art and Theory at the Faculty of Arts of MU can be found HERE. Contact person at the department for questions about the position: Name and surname: Prof. Matthew
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on Topological methods in Discrete Mathematics and conduct research related to problems in Combinatorics, Graph theory and aspects of the Constraint Satisfaction Problem (CSP) with emphasis on topological methods
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, molecular biology or cell biology. Experience with signal transduction, modern histological methods and modern omics methods is advantage but not required. Include these in your application: A comprehensive
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Experience with methods such as Stochastic Actor-Oriented Models (SAOM) or agent-based modeling (ABM) is an advantage but not required What We Offer A supportive, lively research environment with international
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metabolism, invasiveness, and adaptation to the microenvironment. Our research combines experimental mechanobiology, advanced light microscopy, and computational modeling to understand the physical and