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technological relevance. Our experimental core technology is nonlinear optical spectroscopy with pulsed lasers. In addition we apply atomic force microscopy, standard magnetic and dielectric characterization
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technological relevance. Our experimental core technology is pulsed-laser spectroscopy between Terahertz and ultraviolet frequencies. In addition, we apply atomic force microscopy, standard magnetic and
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technological relevance. Our experimental core technology is pulsed-laser spectroscopy between Terahertz and ultraviolet frequencies. In addition we apply atomic force microscopy, standard magnetic and dielectric
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technological relevance. Our experimental core technology is pulsed-laser spectroscopy between Terahertz and ultraviolet frequencies. In addition we apply atomic force microscopy, standard magnetic and dielectric
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and free electron lasers. The main goal is to move from the commonly investigated long-wavelength magnons, dominated by magnetic dipolar coupling, to the short-wavelength, exchange dominated magnons