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Explores the interaction of radiation with matter, covering reaction rate, cross section, X and gamma radiation, neutrons, and significant processes in radiation detection.
Covers detectors' types, counting statistics, error prediction, and uncertainty estimation in measurements, emphasizing the importance of statistical tests and the optimization of experiments.
Explores radiation sources, including fast electron sources, heavy charged particle sources, and neutron sources, covering processes like beta decay, internal conversion, and Auger electrons.
Covers the Higgs mechanism, fermion masses, Yukawa couplings, and properties of the Higgs boson, concluding with a discussion on dark matter beyond the Standard Model.
Compares gaseous, scintillator, and semiconductor detectors for radiation detection, emphasizing the importance of understanding uncertainties in measurements.
