Status of the MicroBooNE inclusive single photon selection using Wire-Cell reconstruction

Physics

Associated organisational unit

Experimental Particle Physics

Text available via DOI:

https://doi.org/10.2172/2406203
Final published version
Available under license: CC BY: Creative Commons Attribution 4.0 International License

View graph of relations

Research output: Working paper › Preprint

Published

Standard

Status of the MicroBooNE inclusive single photon selection using Wire-Cell reconstruction. / MicroBooNE Collaboration.
2022.

Research output: Working paper › Preprint

Bibtex

@techreport{b6524231d1ce4ca693815d3af228fbce,

title = "Status of the MicroBooNE inclusive single photon selection using Wire-Cell reconstruction",

abstract = "MicroBooNE[1] is a Liquid Argon Time Project Chamber (LArTPC) detector whose primary design goal is to understand the “low-energy-excess” anomaly seen by MiniBooNE[2]. MicroBooNE{\textquoteright}s currently published results[3] [4] see no excess consistent with the MiniBooNE observation, therefore creating a need for searches in more channels. This note summarizes MicroBooNE{\textquoteright}s inclusive single photon selection using Wire-Cell reconstruction and pattern recognition, which will be used to search for a low-energy-excess (LEE) anomaly in the inclusive single photon channel. The selection is similar to the Wire-Cell inclusive electron neutrino selection[5], but with a different signal definition and some modifications and additions to the pattern recognition tools. A selection with 15.2% efficiency and 18.5% purity is achieved for simulated Standard Model single photon events.",

author = "{MicroBooNE Collaboration} and Jaroslaw Nowak",

year = "2022",

month = may,

day = "30",

doi = "10.2172/2406203",

language = "English",

type = "WorkingPaper",

}

RIS

TY - UNPB

T1 - Status of the MicroBooNE inclusive single photon selection using Wire-Cell reconstruction

AU - MicroBooNE Collaboration

AU - Nowak, Jaroslaw

PY - 2022/5/30

Y1 - 2022/5/30

N2 - MicroBooNE[1] is a Liquid Argon Time Project Chamber (LArTPC) detector whose primary design goal is to understand the “low-energy-excess” anomaly seen by MiniBooNE[2]. MicroBooNE’s currently published results[3] [4] see no excess consistent with the MiniBooNE observation, therefore creating a need for searches in more channels. This note summarizes MicroBooNE’s inclusive single photon selection using Wire-Cell reconstruction and pattern recognition, which will be used to search for a low-energy-excess (LEE) anomaly in the inclusive single photon channel. The selection is similar to the Wire-Cell inclusive electron neutrino selection[5], but with a different signal definition and some modifications and additions to the pattern recognition tools. A selection with 15.2% efficiency and 18.5% purity is achieved for simulated Standard Model single photon events.

AB - MicroBooNE[1] is a Liquid Argon Time Project Chamber (LArTPC) detector whose primary design goal is to understand the “low-energy-excess” anomaly seen by MiniBooNE[2]. MicroBooNE’s currently published results[3] [4] see no excess consistent with the MiniBooNE observation, therefore creating a need for searches in more channels. This note summarizes MicroBooNE’s inclusive single photon selection using Wire-Cell reconstruction and pattern recognition, which will be used to search for a low-energy-excess (LEE) anomaly in the inclusive single photon channel. The selection is similar to the Wire-Cell inclusive electron neutrino selection[5], but with a different signal definition and some modifications and additions to the pattern recognition tools. A selection with 15.2% efficiency and 18.5% purity is achieved for simulated Standard Model single photon events.

U2 - 10.2172/2406203

DO - 10.2172/2406203

M3 - Preprint

BT - Status of the MicroBooNE inclusive single photon selection using Wire-Cell reconstruction

ER -

Research

Associated organisational unit

Text available via DOI: