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nuclear magnetic resonance, physics, noise limitations, applications of superconducting quantum interference devices, low-transition temperature, axion detectors, sensing of magnetically-tagged biomolecules, nondestructive evaluation

quantum information and computation, precision measurements, ion traps, quantum state engineering, decoherence, quantum simulations, quantum energy transport, quantum chaos, cryogenic electronics

Theory and experiment in magnetic resonance spectroscopy and imaging, quantum coherence and decoherence, novel concepts and methods including molecular and biomolecular sensors and microfluidics, laser hyperpolarization and detection, laser and zero-field NMR, in areas from material science to biomedicine.