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First demonstration of O ( 1     ns ) timing resolution in the MicroBooNE liquid argon time projection chamber

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First demonstration of O ( 1     ns ) timing resolution in the MicroBooNE liquid argon time projection chamber. / MicroBooNE Collaboration ; Blake, A.; Devitt, A. et al.
In: Physical Review D, Vol. 108, No. 5, 052010, 20.09.2023.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

MicroBooNE Collaboration, Blake, A, Devitt, A, Nowak, J, Patel, N, Pophale, I & Thorpe, C 2023, 'First demonstration of O ( 1     ns ) timing resolution in the MicroBooNE liquid argon time projection chamber', Physical Review D, vol. 108, no. 5, 052010. https://doi.org/10.1103/PhysRevD.108.052010

APA

MicroBooNE Collaboration, Blake, A., Devitt, A., Nowak, J., Patel, N., Pophale, I., & Thorpe, C. (2023). First demonstration of O ( 1     ns ) timing resolution in the MicroBooNE liquid argon time projection chamber. Physical Review D, 108(5), Article 052010. https://doi.org/10.1103/PhysRevD.108.052010

Vancouver

MicroBooNE Collaboration, Blake A, Devitt A, Nowak J, Patel N, Pophale I et al. First demonstration of O ( 1     ns ) timing resolution in the MicroBooNE liquid argon time projection chamber. Physical Review D. 2023 Sept 20;108(5):052010. doi: 10.1103/PhysRevD.108.052010

Author

MicroBooNE Collaboration ; Blake, A. ; Devitt, A. et al. / First demonstration of O ( 1     ns ) timing resolution in the MicroBooNE liquid argon time projection chamber. In: Physical Review D. 2023 ; Vol. 108, No. 5.

Bibtex

@article{e8e9cad823df48cb8782cebe49673a0c,
title = "First demonstration of O ( 1     ns ) timing resolution in the MicroBooNE liquid argon time projection chamber",
abstract = " MicroBooNE is a neutrino experiment located in the Booster Neutrino Beamline (BNB) at Fermilab, which collected data from 2015 to 2021. MicroBooNE's liquid argon time projection chamber (LArTPC) is accompanied by a photon detection system consisting of 32 photomultiplier tubes used to measure the argon scintillation light and determine the timing of neutrino interactions. Analysis techniques combining light signals and reconstructed tracks are applied to achieve a neutrino interaction time resolution of $\mathcal{O}(1\,\text{ns})$. The result obtained allows MicroBooNE to access the ns neutrino pulse structure of the BNB for the first time. The timing resolution achieved will enable significant enhancement of cosmic background rejection for all neutrino analyses. Furthermore, the ns timing resolution opens new avenues to search for long-lived-particles such as heavy neutral leptons in MicroBooNE, as well as in future large LArTPC experiments, namely the SBN program and DUNE. ",
keywords = "hep-ex, physics.ins-det",
author = "{MicroBooNE Collaboration} and P. Abratenko and O. Alterkait and Aldana, {D. Andrade} and J. Anthony and L. Arellano and J. Asaadi and A. Ashkenazi and S. Balasubramanian and B. Baller and G. Barr and J. Barrow and V. Basque and Rodrigues, {O. Benevides} and S. Berkman and A. Bhanderi and M. Bhattacharya and M. Bishai and A. Blake and B. Bogart and T. Bolton and Book, {J. Y.} and L. Camilleri and Y. Cao and D. Caratelli and Terrazas, {I. Caro} and F. Cavanna and G. Cerati and Y. Chen and Conrad, {J. M.} and M. Convery and L. Cooper-Troendle and Crespo-Anadon, {J. I.} and Tutto, {M. Del} and Dennis, {S. R.} and P. Detje and A. Devitt and R. Diurba and Z. Djurcic and R. Dorrill and K. Duffy and S. Dytman and B. Eberly and A. Ereditato and Evans, {J. J.} and R. Fine and J. Nowak and N. Patel and I. Pophale and C. Thorpe",
year = "2023",
month = sep,
day = "20",
doi = "10.1103/PhysRevD.108.052010",
language = "English",
volume = "108",
journal = "Physical Review D",
issn = "1550-7998",
publisher = "American Physical Society",
number = "5",

}

RIS

TY - JOUR

T1 - First demonstration of O ( 1     ns ) timing resolution in the MicroBooNE liquid argon time projection chamber

AU - MicroBooNE Collaboration

AU - Abratenko, P.

AU - Alterkait, O.

AU - Aldana, D. Andrade

AU - Anthony, J.

AU - Arellano, L.

AU - Asaadi, J.

AU - Ashkenazi, A.

AU - Balasubramanian, S.

AU - Baller, B.

AU - Barr, G.

AU - Barrow, J.

AU - Basque, V.

AU - Rodrigues, O. Benevides

AU - Berkman, S.

AU - Bhanderi, A.

AU - Bhattacharya, M.

AU - Bishai, M.

AU - Blake, A.

AU - Bogart, B.

AU - Bolton, T.

AU - Book, J. Y.

AU - Camilleri, L.

AU - Cao, Y.

AU - Caratelli, D.

AU - Terrazas, I. Caro

AU - Cavanna, F.

AU - Cerati, G.

AU - Chen, Y.

AU - Conrad, J. M.

AU - Convery, M.

AU - Cooper-Troendle, L.

AU - Crespo-Anadon, J. I.

AU - Tutto, M. Del

AU - Dennis, S. R.

AU - Detje, P.

AU - Devitt, A.

AU - Diurba, R.

AU - Djurcic, Z.

AU - Dorrill, R.

AU - Duffy, K.

AU - Dytman, S.

AU - Eberly, B.

AU - Ereditato, A.

AU - Evans, J. J.

AU - Fine, R.

AU - Nowak, J.

AU - Patel, N.

AU - Pophale, I.

AU - Thorpe, C.

PY - 2023/9/20

Y1 - 2023/9/20

N2 - MicroBooNE is a neutrino experiment located in the Booster Neutrino Beamline (BNB) at Fermilab, which collected data from 2015 to 2021. MicroBooNE's liquid argon time projection chamber (LArTPC) is accompanied by a photon detection system consisting of 32 photomultiplier tubes used to measure the argon scintillation light and determine the timing of neutrino interactions. Analysis techniques combining light signals and reconstructed tracks are applied to achieve a neutrino interaction time resolution of $\mathcal{O}(1\,\text{ns})$. The result obtained allows MicroBooNE to access the ns neutrino pulse structure of the BNB for the first time. The timing resolution achieved will enable significant enhancement of cosmic background rejection for all neutrino analyses. Furthermore, the ns timing resolution opens new avenues to search for long-lived-particles such as heavy neutral leptons in MicroBooNE, as well as in future large LArTPC experiments, namely the SBN program and DUNE.

AB - MicroBooNE is a neutrino experiment located in the Booster Neutrino Beamline (BNB) at Fermilab, which collected data from 2015 to 2021. MicroBooNE's liquid argon time projection chamber (LArTPC) is accompanied by a photon detection system consisting of 32 photomultiplier tubes used to measure the argon scintillation light and determine the timing of neutrino interactions. Analysis techniques combining light signals and reconstructed tracks are applied to achieve a neutrino interaction time resolution of $\mathcal{O}(1\,\text{ns})$. The result obtained allows MicroBooNE to access the ns neutrino pulse structure of the BNB for the first time. The timing resolution achieved will enable significant enhancement of cosmic background rejection for all neutrino analyses. Furthermore, the ns timing resolution opens new avenues to search for long-lived-particles such as heavy neutral leptons in MicroBooNE, as well as in future large LArTPC experiments, namely the SBN program and DUNE.

KW - hep-ex

KW - physics.ins-det

U2 - 10.1103/PhysRevD.108.052010

DO - 10.1103/PhysRevD.108.052010

M3 - Journal article

VL - 108

JO - Physical Review D

JF - Physical Review D

SN - 1550-7998

IS - 5

M1 - 052010

ER -