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areas:Miniaturized optically pumped atomic magnetometers (OPMs) for ultra-low-field nuclear magnetic resonance (ZULF NMR) and magnetic resonance imaging (MRI); NMR MRI with a focus on MRI of microfluidic
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transport of orbital angular momentum currents for their use in innovative magnetic memory and computing applications. The devices will be fabricated by thin film sputtering growth and lithography in
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atoms. The experiment aims to study for the first time fundamental light-matter interaction processes at the single-particle level. Share this opening! Use the following URL: https://jobs.icfo.eu/?detail
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of supramolecular cycles via photocatalytic mechanisms. Characterization of supramolecular polymers using techniques such as nuclear magnetic resonance (NMR), mass spectrometry (MS) couple with liquid or gas
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latitudinal differential rotation Search for magnetic activity cycles of solar-like stars using photometric, spectroscopic, and spectropolarimetric observations Preparation of the lightcurve calibration
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quantum simulator. The goal is to construct a new experimental tool based on a graphene superlattice to not only measuring macroscopic observables, such as electrical resistivity and magnetization, but also
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. The successful candidate will be joining the Atomic Quantum Optics group led by Prof. Dr. Morgan Mitchell. Searches for new particles and forces using table-top experiments is an expanding frontier of fundamental
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miniaturization of optically-pumped magnetometers for magnetoencephalography (MEG) and magnetocardiography, zero- and ultra-low-field nuclear magnetic resonance, and radio-frequency field detection using