The SNEWS 2.0 alert software for the coincident detection of neutrinos from core-collapse supernovae

M. Kara; S. Torres-Lara; A. L. Baxter; S. BenZvi; M. Colomer Molla; A. Habig; J. P. Kneller; M. Lai; R. F. Lang; M. Linvill; D. Milisavljevic; J. Migenda; C. Orr; K. Scholberg; J. Smolsky; J. Tseng; C. D. Tunnell; J. Vasel; A. Sheshukov

doi:10.1088/1748-0221/19/10/P10017

The SNEWS 2.0 alert software for the coincident detection of neutrinos from core-collapse supernovae

M. Kara, S. Torres-Lara, A. L. Baxter, S. BenZvi, M. Colomer Molla, A. Habig, J. P. Kneller, M. Lai, R. F. Lang, M. Linvill, D. Milisavljevic, J. Migenda, C. Orr, K. Scholberg, J. Smolsky, J. Tseng, C. D. Tunnell, J. Vasel, A. Sheshukov

Physics & Astronomy (Duluth)

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

Abstract

The neutrino signal from the next galactic core-collapse supernova will provide an invaluable early warning of the explosion. By combining the burst trigger from several neutrino detectors, the location of the explosion can be triangulated minutes to hours before the optical emission becomes visible, while also reducing the rate of false-positive triggers. To enable multi-messenger follow-up of nearby supernovae, the SuperNova Early Warning System 2.0 (SNEWS 2.0) will produce a combined alert using a global network of neutrino detectors. This paper describes the trigger publishing and alert formation framework of the SNEWS 2.0 network. The framework is built on the HOPSKOTCH publish-subscribe system to easily incorporate new detectors into the network, and it implements a coincidence system to form alerts and estimate a false-positive rate for the combined triggers. The paper outlines the structure of the SNEWS 2.0 software and the initial testing of coincident signals.

Original language	English (US)
Article number	P10017
Journal	Journal of Instrumentation
Volume	19
Issue number	10
DOIs	https://doi.org/10.1088/1748-0221/19/10/P10017
State	Published - Oct 1 2024

Bibliographical note

Publisher Copyright:
© 2024 The Author(s)

Keywords

Neutrino detectors
Real-time monitoring
Software architectures (event data models, frameworks and databases)
Trigger algorithms

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10.1088/1748-0221/19/10/P10017

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Kara, M., Torres-Lara, S., Baxter, A. L., BenZvi, S., Colomer Molla, M., Habig, A., Kneller, J. P., Lai, M., Lang, R. F., Linvill, M., Milisavljevic, D., Migenda, J., Orr, C., Scholberg, K., Smolsky, J., Tseng, J., Tunnell, C. D., Vasel, J., & Sheshukov, A. (2024). The SNEWS 2.0 alert software for the coincident detection of neutrinos from core-collapse supernovae. Journal of Instrumentation, 19(10), Article P10017. https://doi.org/10.1088/1748-0221/19/10/P10017

Kara, M, Torres-Lara, S, Baxter, AL, BenZvi, S, Colomer Molla, M, Habig, A, Kneller, JP, Lai, M, Lang, RF, Linvill, M, Milisavljevic, D, Migenda, J, Orr, C, Scholberg, K, Smolsky, J, Tseng, J, Tunnell, CD, Vasel, J & Sheshukov, A 2024, 'The SNEWS 2.0 alert software for the coincident detection of neutrinos from core-collapse supernovae', Journal of Instrumentation, vol. 19, no. 10, P10017. https://doi.org/10.1088/1748-0221/19/10/P10017

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abstract = "The neutrino signal from the next galactic core-collapse supernova will provide an invaluable early warning of the explosion. By combining the burst trigger from several neutrino detectors, the location of the explosion can be triangulated minutes to hours before the optical emission becomes visible, while also reducing the rate of false-positive triggers. To enable multi-messenger follow-up of nearby supernovae, the SuperNova Early Warning System 2.0 (SNEWS 2.0) will produce a combined alert using a global network of neutrino detectors. This paper describes the trigger publishing and alert formation framework of the SNEWS 2.0 network. The framework is built on the HOPSKOTCH publish-subscribe system to easily incorporate new detectors into the network, and it implements a coincidence system to form alerts and estimate a false-positive rate for the combined triggers. The paper outlines the structure of the SNEWS 2.0 software and the initial testing of coincident signals.",

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author = "M. Kara and S. Torres-Lara and Baxter, {A. L.} and S. BenZvi and {Colomer Molla}, M. and A. Habig and Kneller, {J. P.} and M. Lai and Lang, {R. F.} and M. Linvill and D. Milisavljevic and J. Migenda and C. Orr and K. Scholberg and J. Smolsky and J. Tseng and Tunnell, {C. D.} and J. Vasel and A. Sheshukov",

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AU - BenZvi, S.

AU - Colomer Molla, M.

AU - Habig, A.

AU - Kneller, J. P.

AU - Lai, M.

AU - Lang, R. F.

AU - Linvill, M.

AU - Milisavljevic, D.

AU - Migenda, J.

AU - Orr, C.

AU - Scholberg, K.

AU - Smolsky, J.

AU - Tseng, J.

AU - Tunnell, C. D.

AU - Vasel, J.

AU - Sheshukov, A.

PY - 2024/10/1

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N2 - The neutrino signal from the next galactic core-collapse supernova will provide an invaluable early warning of the explosion. By combining the burst trigger from several neutrino detectors, the location of the explosion can be triangulated minutes to hours before the optical emission becomes visible, while also reducing the rate of false-positive triggers. To enable multi-messenger follow-up of nearby supernovae, the SuperNova Early Warning System 2.0 (SNEWS 2.0) will produce a combined alert using a global network of neutrino detectors. This paper describes the trigger publishing and alert formation framework of the SNEWS 2.0 network. The framework is built on the HOPSKOTCH publish-subscribe system to easily incorporate new detectors into the network, and it implements a coincidence system to form alerts and estimate a false-positive rate for the combined triggers. The paper outlines the structure of the SNEWS 2.0 software and the initial testing of coincident signals.

AB - The neutrino signal from the next galactic core-collapse supernova will provide an invaluable early warning of the explosion. By combining the burst trigger from several neutrino detectors, the location of the explosion can be triangulated minutes to hours before the optical emission becomes visible, while also reducing the rate of false-positive triggers. To enable multi-messenger follow-up of nearby supernovae, the SuperNova Early Warning System 2.0 (SNEWS 2.0) will produce a combined alert using a global network of neutrino detectors. This paper describes the trigger publishing and alert formation framework of the SNEWS 2.0 network. The framework is built on the HOPSKOTCH publish-subscribe system to easily incorporate new detectors into the network, and it implements a coincidence system to form alerts and estimate a false-positive rate for the combined triggers. The paper outlines the structure of the SNEWS 2.0 software and the initial testing of coincident signals.

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KW - Software architectures (event data models, frameworks and databases)

KW - Trigger algorithms

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The SNEWS 2.0 alert software for the coincident detection of neutrinos from core-collapse supernovae

Abstract

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Keywords

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