Z Decaying to Taus

The electron and positron beams collide in the centre of the detector
A Z particle is produced (at rest)
The Z particle immediately decays into two tau particles
Unlike the other leptons (electrons and muons), the tau decays inside the detector
In this case,

The upwards-going tau has decayed into an electron (charged track in the tracking detector (red) and energy in the electromagnetic calorimter (green)) and two neutrinos (which do not interact in the detector)
The downwards-going tau has decayed into a muon (charged tracks and no energy deposits before leaving the detector) and two neutrinos

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