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property corresponding to equilibrium currents in response to an applied magnetic field, provides a unique probe for studying both macroscopic and microscopic systems. This project aims to exploit recently
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, electronics, image and data analysis, chemistry, and biology. In this position, the successful candidate will work on the development of a novel three-dimensional single-molecule localization microscopy
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computer or microscope; frequently stands to perform bench work; occasionally lifts objects up to 20 lbs (e.g., reagent boxes); requires visual acuity to perform microscopy and analyze data. Location
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Regular Job Code 9546 Employee Class Acad Prof and Admin Add to My Favorite Jobs Email this Job About the Job In this role, you will have the opportunity to conduct research related to the effects
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successfully developed a cryogenic atomic force microscope that can characterize biological cell sections, and the postdoctoral researcher will adapt the setup for performing tip-enhanced dual-comb spectroscopy
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molecules, but the microscopic mechanisms governing their adsorption strength, monolayer formation, temperature stability, and response to corrosive ions remain insufficiently understood. The project will
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: combining microscopic modelling and simulations (e.g., Brownian dynamics) with continuum approaches (e.g., statistical field theory) to study the macroscopic behaviour of proliferating active systems such as
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(Thorlabs) for imaging large cortical and subcortical areas in awake head-fixed animals, two 2-photon microscopes for single-cell electrophysiological experiments in brain slices (Chun et al, Science 2014
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world leading facility for studying magnetic and electronic properties of matter using advanced chiroptical techniques in the hard X-ray range. Combining element-selective X-ray circular dichroism with
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Regular Job Code 9546 Employee Class Acad Prof and Admin Add to My Favorite Jobs Email this Job About the Job In this role, you will have the opportunity to conduct research investigating the molecular