Tomographic event reconstruction with the MicroBooNE LArTPC
Date
2017
Authors
Caro Terrazas, Ivan, author
Mooney, Michael, author
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Abstract
Neutrino event reconstruction in liquid argon time projection chambers (LArTPCs) involves both the imaging of particle interactions and the subsequent performance of pattern recognition on the images to reconstruct particle tracks and electromagnetic showers in the detector. The imaging makes use of the charge and time information associated with ionization electron signals measured at the wire readout of the induction planes and collection plane. Wire-Cell, a novel approach to neutrino event reconstruction in LArTPCs that uses tomographic techniques for imaging of the event, has been developed recently for use at LArTPC neutrino experiments such as MicroBooNE (Micro Booster Neutrino Experiment) and DUNE (Deep Underground Neutrino Experiment). In this approach, the trajectories of particles in the event are mapped directly to a 3D image by matching local charge depositions across both the induction and collection planes. Using data from the MicroBooNE detector, we highlight the intricacies of signal processing in LArTPCs and demonstrate for the first time successful LArTPC induction plane calorimetry, the cornerstone of the Wire-Cell approach to neutrino event reconstruction.
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Subject
neutrino
uboone
microBooNE
LArTPC
signal processing