1.10 The OPERA experiment was designed to search for v, → V, appearance. A beam of muon neutrinos with average energy 17 GeV travels 732 km from CERN to the detector in the LNGS laboratory. Assuming a simple model for oscillations between two flavour states with a mixing angle 6 Am? = 2 x 10-3eV?, calculate the probability for a neutrino to be seen as a v, at the OPERA detector. 45° and a mass difference squared of %3D The OPERA detector is made of emulsion films interleaved with lead plates. What property of lead makes it a good choice for this type of detector?

1.10 The OPERA experiment was designed to search for v, → V, appearance. A beam of muon neutrinos with average energy 17 GeV travels 732 km from CERN to the detector in the LNGS laboratory. Assuming a simple model for oscillations between two flavour states with a mixing angle 6 Am? = 2 x 10-3eV?, calculate the probability for a neutrino to be seen as a v, at the OPERA detector. 45° and a mass difference squared of %3D The OPERA detector is made of emulsion films interleaved with lead plates. What property of lead makes it a good choice for this type of detector?

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Question

1.10 The OPERA experiment was designed to search for v, → Vv, appearance. A beam
of muon neutrinos with average energy 17 GeV travels 732 km from CERN to the
detector in the LNGS laboratory. Assuming a simple model for oscillations between
two flavour states with a mixing angle 6
Am? = 2 x 10-3eV?, calculate the probability for a neutrino to be seen as a v, at
the OPERA detector.
45° and a mass difference squared of
%3D
The OPERA detector is made of emulsion films interleaved with lead plates. What
property of lead makes it a good choice for this type of detector?

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