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strongly interdisciplinary. Specifically, our star technique is scanning electrochemical cell microscopy (SECCM) , a powerful electrochemical imaging technique for interrogating electrochemical processes
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electrical activity with high resolution in space and time. We study information processing in the brains of awake, behaving mice and zebrafish. We also work on electrical signaling in other tissues
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Experience with signal processing, statistical data analysis, or machine learning techniques. Proficiency in scientific programming (e.g., Python, MATLAB, or similar). Ability to work independently while
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imaginative Postdoctoral Researcher to join our team investigating fundamental mechanisms of developmental biology. Our lab focuses on understanding cellular and molecular processes that drive
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strongly interdisciplinary. Specifically, our star technique is scanning electrochemical cell microscopy (SECCM) , a powerful electrochemical imaging technique for interrogating electrochemical processes
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systems, cosmic-ray detectors, and data analysis are strongly encouraged to apply, as these skills will be preferred in the selection process. This appointment duration is for up to three years, with
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of the rich and varied training and career development opportunities offered at HSPH. Basic Qualifications · PhD or equivalent in computational biology, computer science, epidemiology, statistics, mathematics
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of biomechanics and computer vision to document the wingbeat frequencies and phototactic behaviors of diverse insects under diverse contexts. Candidates will be expected to plan and lead behavioral experiments