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Field
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for arcs in vacuum circuit breakers. This project is conducted in partnership with an international switchgear manufacturer to understand how the electrical arcs in vacuum circuit breakers interact with
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progress towards circuit specific control of OUD symptoms Our scientific aim is to map neural activity underlying opioid withdrawal and craving using cutting-edge anatomical, optogenetic and
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position is part of a project aimed at achieving an individual-level understanding of the development and organizational principles of brain circuits that support psychiatric conditions. As Postdoctoral
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associated with impaired development of inhibitory circuits in an ASD subtype. Using cutting-edge in vivo electrophysiology (Neuropixels recordings), behavioral testing, opto/chemo-genetic techniques, and
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circuitry ideally including tracing of ascending neuronal projections and behavioural techniques for functional interrogation of these circuits. They will be self-motivated in designing and executing
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programme of our growing team, on the post-transcriptional processes that control the assembly of cortical circuits in the mammalian brain. The post will involve working with transgenic mouse models
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studied. The planned measurements will be centered in circuit QED type of measurements at microwave frequencies. The implications of this fundamental flat band work will then be applied to multilayered
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observed in neuronal systems — i.e., from the microscopic (individual neuron), to mesoscopic (neuronal circuit) and macroscopic (entire brain regions). This is a timely and ambitious direction of research
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centered in circuit QED type of measurements at microwave frequencies. The implications of this fundamental flat band work will then be applied to multilayered graphite with stacking faults. Properly
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objective of this position is to elucidate how T cell-NK cell interactions, immune regulatory circuits, and cellular state transitions shape responsiveness to cancer immunotherapies. Research efforts will