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-temporally cooperate to result in an emergent macroscopic flow. Besides the immediate applications of the work to soft matter physics, and potentially also to the fracture mechanics of hard materials, yielding
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research unit. The division focuses on uncovering molecular mechanisms of health and disease through advanced imaging and biophysical approaches. The research group hosting this position studies Contractile
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models of GI diseases to continue our work in functionally characterizing the impact of immune cells including ILCs in IBD. Our research program provides a highly collaborative and supportive training
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formation, statistical astronomy, and transient science. Applicants may work with the Department's distinguished faculty and research staff. For a full list of department members and activities, see https
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cavity structure enable a mechanism for the controlled Bose-Einstein condensation at room temperature, with applications in all-optical computing Nature Photonics 13 378 (2019) and quantum sensing Nature
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The Blackford group (https://icmm.ku.dk/english/research-groups/blackford-group/ ) aims to understand the molecular mechanisms that cells use to maintain genome stability, using a combination of genetic
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/human-resources/benefits.html Employee Type: Regular Time Type: Full time Rate Type: Salary Compensation Statement: The pay range listed for this position is determined by our compensation program using
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mechanisms of meiotic chromosome segregation using Drosophila oocytes as a model system (http://ohkura.bio.ed.ac.uk). We are looking for an enthusiastic and talented researcher to study spindle regulation in
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University of British Columbia | Northern British Columbia Fort Nelson, British Columbia | Canada | 2 months ago
, Mathematical and Computational Biology, Physics, Mechanical Engineering, Continuum Mechanics, or other equivalent discipline. Expert skills required and desirable · Must have a strong expertise in nonlinear
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. Integrating HD-EMG decomposition algorithms with the CEINMS-RT musculoskeletal modeling framework to enable efficient real-time computation of joint kinetics. Developing and validating motor unit-driven