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the area of Electron Spin Resonance (ESR) Spectroscopy and Protein Biophysics. This Research Associate position involves primary research and related professional activities associated with a research
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National Aeronautics and Space Administration (NASA) | Pasadena, California | United States | about 12 hours ago
absolute accuracy are required. A promising category of magnetometers is based on optically detected magnetic resonance (ODMR) or electrically detected magnetic resonance (EDMR), utilizing the spin
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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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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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sensing, and high-fidelity medical imaging. The second project is focused on optically-detected NMR, in particular NMR based on quantum-coherently excited diamond NV electron spins coupled with nuclear
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. Biomagnetism; Electron spin resonance; ESR; Magnetic resonance imaging; Molecular nanomagnets; MRI; Nanomagnetism; NMR; Nuclear magnetic resonance; neural sensing; Atomic magnetometers Citizenship: Open to U.S
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50.68.82.C0807 Boulder, CO NIST only participates in the February and August reviews. Advisers name email phone John E. Kitching [email protected] 303.497.4083 Description Magnetometers based
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301.975.3792 Description Post-doctoral positions are available to advance materials, methods, and instrumentation for electron paramagnetic resonance (EPR) spectroscopy measurements of nanomaterials and
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focused on probing superconducting, magnetic, and topological phase transitions using cryogenic quantum sensing modalities that include squeezed optical probes and spin-based quantum sensors. You will have
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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