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of TWPAs, while the other will specialize in their characterization. About the research project The Wallenberg Center for Quantum Technology is a 12-year project aimed at building a quantum computer based on
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'wire up' into functional circuits?" "How do neural circuits produce behavior?" These questions are being explored at all levels of organization – from the relatively simple nervous systems of Drosophila
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in different brain models (tree shrew, macaque, human neurotypical, schizophrenia patients) and levels of analyses (local- and large-scale circuits). This is a unique opportunity to learn about team
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anatomical and functional investigation of the cerebrovasculature is highly desirable. However, candidates with other experimental and/or data skills are welcome to apply. Experience in computer programming
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systems that mediate hunger, thirst, and stress. Critical to this effort, the lab develops cutting-edge chemogenetic receptors to understand neural circuits for addiction. The ideal candidate is an
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Knowledge, Skills, and Abilities Must be able to work with rodents. Must have effective oral and written communication skills. Must be computer literate with proficiency and working knowledge of database and
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evaluation, perform electrical and mechanical tests on prototypes, and contribute to system design prototyping as part of a larger power electronics team on applications including motor drives, solar inverters
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systems that mediate hunger, thirst, and stress. Critical to this effort, the lab develops cutting-edge chemogenetic receptors to understand neural circuits for addiction. The ideal candidate is an
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initiative to develop a quantum computer based on superconducting circuits. Part of the project is also to solve specific problems related to this goal. A key challenge in this effort is mitigating errors in
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optic cable can replace thousands of electrical links to transmit the same amount of information. As parallels to the thriving field of stretchable electronics, soft optics is emerging as a new platform