Supernova neutrino detection in NOvA

NOvA Collaboration

doi:10.1088/1475-7516/2020/10/014

Supernova neutrino detection in NOvA

NOvA Collaboration

Research output: Contribution to journal › Article › peer-review

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Abstract

The NOvA long-baseline neutrino experiment uses a pair of large, segmented, liquid-scintillator calorimeters to study neutrino oscillations, using GeV-scale neutrinos from the Fermilab NuMI beam. These detectors are also sensitive to the flux of neutrinos which are emitted during a core-collapse supernova through inverse beta decay interactions on carbon at energies of O(10 MeV). This signature provides a means to study the dominant mode of energy release for a core-collapse supernova occurring in our galaxy. We describe the data-driven software trigger system developed and employed by the NOvA experiment to identify and record neutrino data from nearby galactic supernovae. This technique has been used by NOvA to self-trigger on potential core-collapse supernovae in our galaxy, with an estimated sensitivity reaching out to 10 kpc distance while achieving a detection efficiency of 23% to 49% for supernovae from progenitor stars with masses of 9.6 M☉ to 27 M☉, respectively.

Original language	English (US)
Article number	014
Journal	Journal of Cosmology and Astroparticle Physics
Volume	2020
Issue number	10
DOIs	https://doi.org/10.1088/1475-7516/2020/10/014
State	Published - Oct 2020

Bibliographical note

Publisher Copyright:
© 2020 IOP Publishing Ltd and Sissa Medialab

Keywords

Core-collapse supernovae
Neutrino experiments
Supernova neutrinos

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@article{b9824b4b9551412c842cd697a201c9cc,

title = "Supernova neutrino detection in NOvA",

abstract = "The NOvA long-baseline neutrino experiment uses a pair of large, segmented, liquid-scintillator calorimeters to study neutrino oscillations, using GeV-scale neutrinos from the Fermilab NuMI beam. These detectors are also sensitive to the flux of neutrinos which are emitted during a core-collapse supernova through inverse beta decay interactions on carbon at energies of O(10 MeV). This signature provides a means to study the dominant mode of energy release for a core-collapse supernova occurring in our galaxy. We describe the data-driven software trigger system developed and employed by the NOvA experiment to identify and record neutrino data from nearby galactic supernovae. This technique has been used by NOvA to self-trigger on potential core-collapse supernovae in our galaxy, with an estimated sensitivity reaching out to 10 kpc distance while achieving a detection efficiency of 23% to 49% for supernovae from progenitor stars with masses of 9.6 M☉ to 27 M☉, respectively.",

keywords = "Core-collapse supernovae, Neutrino experiments, Supernova neutrinos",

author = "{NOvA Collaboration} and Acero, {M. A.} and P. Adamson and G. Agam and L. Aliaga and T. Alion and V. Allakhverdian and N. Anfimov and A. Antoshkin and E. Arrieta-Diaz and L. Asquith and A. Aurisano and A. Back and C. Backhouse and M. Baird and N. Balashov and P. Baldi and Bambah, {B. A.} and S. Bashar and K. Bays and S. Bending and R. Bernstein and V. Bhatnagar and B. Bhuyan and J. Bian and J. Blair and Booth, {A. C.} and P. Bour and R. Bowles and C. Bromberg and N. Buchanan and A. Butkevich and V. Bychkov and S. Calvez and Carroll, {T. J.} and E. Catano-Mur and S. Childress and Choudhary, {B. C.} and Coan, {T. E.} and M. Colo and L. Corwin and L. Cremonesi and Davies, {G. S.} and Derwent, {P. F.} and A. Habig and K. Heller and Marshak, {M. L.} and A. Mislivec and G. Pawloski and M. Strait and D. Torbunov",

note = "Publisher Copyright: {\textcopyright} 2020 IOP Publishing Ltd and Sissa Medialab",

year = "2020",

month = oct,

doi = "10.1088/1475-7516/2020/10/014",

language = "English (US)",

volume = "2020",

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T1 - Supernova neutrino detection in NOvA

AU - NOvA Collaboration

AU - Acero, M. A.

AU - Adamson, P.

AU - Agam, G.

AU - Aliaga, L.

AU - Alion, T.

AU - Allakhverdian, V.

AU - Anfimov, N.

AU - Antoshkin, A.

AU - Arrieta-Diaz, E.

AU - Asquith, L.

AU - Aurisano, A.

AU - Back, A.

AU - Backhouse, C.

AU - Baird, M.

AU - Balashov, N.

AU - Baldi, P.

AU - Bambah, B. A.

AU - Bashar, S.

AU - Bays, K.

AU - Bending, S.

AU - Bernstein, R.

AU - Bhatnagar, V.

AU - Bhuyan, B.

AU - Bian, J.

AU - Blair, J.

AU - Booth, A. C.

AU - Bour, P.

AU - Bowles, R.

AU - Bromberg, C.

AU - Buchanan, N.

AU - Butkevich, A.

AU - Bychkov, V.

AU - Calvez, S.

AU - Carroll, T. J.

AU - Catano-Mur, E.

AU - Childress, S.

AU - Choudhary, B. C.

AU - Coan, T. E.

AU - Colo, M.

AU - Corwin, L.

AU - Cremonesi, L.

AU - Davies, G. S.

AU - Derwent, P. F.

AU - Habig, A.

AU - Heller, K.

AU - Marshak, M. L.

AU - Mislivec, A.

AU - Pawloski, G.

AU - Strait, M.

AU - Torbunov, D.

PY - 2020/10

Y1 - 2020/10

N2 - The NOvA long-baseline neutrino experiment uses a pair of large, segmented, liquid-scintillator calorimeters to study neutrino oscillations, using GeV-scale neutrinos from the Fermilab NuMI beam. These detectors are also sensitive to the flux of neutrinos which are emitted during a core-collapse supernova through inverse beta decay interactions on carbon at energies of O(10 MeV). This signature provides a means to study the dominant mode of energy release for a core-collapse supernova occurring in our galaxy. We describe the data-driven software trigger system developed and employed by the NOvA experiment to identify and record neutrino data from nearby galactic supernovae. This technique has been used by NOvA to self-trigger on potential core-collapse supernovae in our galaxy, with an estimated sensitivity reaching out to 10 kpc distance while achieving a detection efficiency of 23% to 49% for supernovae from progenitor stars with masses of 9.6 M☉ to 27 M☉, respectively.

AB - The NOvA long-baseline neutrino experiment uses a pair of large, segmented, liquid-scintillator calorimeters to study neutrino oscillations, using GeV-scale neutrinos from the Fermilab NuMI beam. These detectors are also sensitive to the flux of neutrinos which are emitted during a core-collapse supernova through inverse beta decay interactions on carbon at energies of O(10 MeV). This signature provides a means to study the dominant mode of energy release for a core-collapse supernova occurring in our galaxy. We describe the data-driven software trigger system developed and employed by the NOvA experiment to identify and record neutrino data from nearby galactic supernovae. This technique has been used by NOvA to self-trigger on potential core-collapse supernovae in our galaxy, with an estimated sensitivity reaching out to 10 kpc distance while achieving a detection efficiency of 23% to 49% for supernovae from progenitor stars with masses of 9.6 M☉ to 27 M☉, respectively.

KW - Core-collapse supernovae

KW - Neutrino experiments

KW - Supernova neutrinos

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U2 - 10.1088/1475-7516/2020/10/014

DO - 10.1088/1475-7516/2020/10/014

M3 - Article

AN - SCOPUS:85092700901

SN - 1475-7516

VL - 2020

JO - Journal of Cosmology and Astroparticle Physics

JF - Journal of Cosmology and Astroparticle Physics

IS - 10

M1 - 014

ER -

Supernova neutrino detection in NOvA

Abstract

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Keywords

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