Research output: Working paper › Preprint
Research output: Working paper › Preprint
}
TY - UNPB
T1 - Tomographic Event Reconstruction with MicroBooNE Data
AU - MicroBooNE Collaboration
AU - Nowak, Jaroslaw
PY - 2018/6/2
Y1 - 2018/6/2
N2 - Event reconstruction is one of the most challenging tasks in analyzing the data from current and future massive single-phase liquid argon time projection chambers (LArTPCs). The performance of event reconstruction is critical to the potency of the eventual physics result. In this note, we describe a novel event reconstruction method, known as Wire-Cell tomographic imaging [1], applied to MicroBooNE data. MicroBooNE is an 85 metric ton single-phase LArTPC and the first of a trio of LArTPCs in the Short Baseline Neutrino (SBN) program. MicroBooNE’s principal aims are to understand the MiniBooNE low energy excess, measure neutrino-argon interaction cross sections, and improve the understanding and capability of single-phase LArTPCs through detector R&D.
AB - Event reconstruction is one of the most challenging tasks in analyzing the data from current and future massive single-phase liquid argon time projection chambers (LArTPCs). The performance of event reconstruction is critical to the potency of the eventual physics result. In this note, we describe a novel event reconstruction method, known as Wire-Cell tomographic imaging [1], applied to MicroBooNE data. MicroBooNE is an 85 metric ton single-phase LArTPC and the first of a trio of LArTPCs in the Short Baseline Neutrino (SBN) program. MicroBooNE’s principal aims are to understand the MiniBooNE low energy excess, measure neutrino-argon interaction cross sections, and improve the understanding and capability of single-phase LArTPCs through detector R&D.
U2 - 10.2172/1573056
DO - 10.2172/1573056
M3 - Preprint
BT - Tomographic Event Reconstruction with MicroBooNE Data
ER -