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have a passion for highly collaborative, experimental research this is for you! The aim of the project is to develop spin sensors that use optomechanical readout of ultrahigh-Q nanomechanical resonators
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environment Preferred Knowledge, Skills, and Abilities: Knowledge of nonlinear dynamics and resonance phenomena in circular accelerators Knowledge of beam cooling in accelerators Knowledge of spin dynamics in
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establish and conduct experiments using time-resolved electron spin resonance spectroscopy techniques to study equilibrium dynamics of membrane transport protein complexes, which are targets for novel
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neutron beams and neutron beams with OAM; the interaction of neutron OAM beams on p-wave neutron-nucleus resonances, and the development of novel RF neutron-spin-flippers using high temperature
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on the quest to improve the sensitivity and ease of use of magnetic resonance spectroscopy. The proposed projects aim to mitigate the adverse effects of hardware properties of (ultra)fast-spinning MAS probes
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materials, superconductors, photoelectron spectroscopy, electronic structure Required Skills: A Ph.D. in relevant field within the last 5 years or soon to be completed. Relevant experience in experimental
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neutron beams and neutron beams with OAM; the interaction of neutron OAM beams on p-wave neutron-nucleus resonances, and the development of novel RF neutron-spin-flippers using high temperature
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science Single ‘particle’ laser spectroscopy, especially optically-detected magnetic resonance (ODMR) Experimental skills including optics, RF electronics, experimental control (e.g., labview/Python) Good