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. Lyngby, Denmark Be the First to Apply Job Description This multidisciplinary research program focuses on developing ultrafast multiphoton lightsheet microscopy for imaging live brain activity in vivo
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. The project includes the study of human and murine cellular models of neurodevelopmental delay and epilepsy using live cell imaging of neuronal activity. The purpose is to develop an imaging modality that can
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processing techniques and aims to develop new methods. Background Ultrasound is widely used at hospitals for medical imaging and allows both 2D (well-known from fetal scans) and 3D images to be created, which
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must hold a PhD degree (or equivalent) by the time of employment. (Not necessarily by the time of application.) Your skill set should include design and analysis of algorithms and/or data structures
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optimized for sample preparation. Ensure the integration of necessary components and functionalities for seamless operation. Qualifications As a formal qualification, you must hold a PhD degree in chemical
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X-ray Tissue Imaging for Robotic Automation – DTU Compute Kgs. Lyngby, Denmark Posted on 05/28/2024 A PhD position in an innovation-driven collaboration project between DTU and industry, led by Danish
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for Visualizing Catalytic Processes (VISION) at DTU Physics www.vision.dtu.dk and work closely with VISION’s faculty members, PhD students, postdocs and international leading collaborators all working
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Description You have a PhD in experimental microfluidics, and you wish to pursue applications within Life Sciences: we offer a 2-year postdoctoral position in the “Nanofluidics and Bioimaging” group
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collaborative environment. In this specific project, you will be working closely with 3 other members (PhD and postdocs) and supported by computational PhD student. Candidates with strong academic track record
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paradigm. You will develop new insight into audio and visual processing in the brain, as how to support and shape these processes through technology, under the general umbrella of ‘perceptual engineering