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. These properties result from the underlying complex polycrystalline microstructure. Simulation of artificially generated, 3D synthetic microstructures supports the design of novel steel grades. However, generating
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student will study CILP regulation, interaction, function and mode of action using an innovative 3D cell culture model containing human stem cell-derived cardiomyocytes and cardiac fibroblasts (engineered
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screen, we know how to compute the required freeform surfaces (lenses or reflectors). In this project we will develop a Monge-Ampère-based algorithm to design 3D optical systems where light beams can be
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design. This is a research position and you deal with patient material, artificial 3D culture models and animal models. Requirements Specific Requirements You have a M.Sc. degree in biomedical
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screen, we know how to compute the required freeform surfaces (lenses or reflectors). In this project we will develop a Monge-Ampère-based algorithm to design 3D optical systems where light beams can be
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possible with current methodologies. With a number of research institutes and companies throughout Europe, we will develop and validate a tumor-lymph node-on-chip (Tumor-LN-oC) platform composed of 3D tissue
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this project we will develop a Monge-Ampère-based algorithm to design 3D optical systems where light beams can be split and rays may follow different paths. This is important for applications as it may lead to
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Factors (HF) Labs. These Labs offer state of the art infrastructure for human factors / ergonomics research and education. The labs encompass various rooms dedicated to physical factors (3D Body Scanning
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tumor-lymph node-on-chip (Tumor-LN-oC) platform composed of 3D tissue models and microfluidic chips which will connect surgically removed human primary tumors and LN tissue from the same lung cancer
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will collaborate with colleagues from Radboud UMC who will work on 3D and in vivo radiobiology. Requirements Specific Requirements You are a highly motivated and talented candidate that holds a MSc