Development of an Autonomous Detection-Unit Self-Trigger for GRAND

Tim Huege; Kumiko Kotera

Development of an Autonomous Detection-Unit Self-Trigger for GRAND

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Abstract

One of the major challenges for the radio detection of extensive air showers, as encountered by the Giant Radio Array for Neutrino Detection (GRAND), is the requirement of an autonomous radio self-trigger. This work presents the current development of self-triggering techniques at the detection-unit level -- the so-called first-level trigger (FLT) -- in the context of the NUTRIG project. A second-level trigger (SLT) at the array level is described in a separate contribution. Two FLT methods are described, based on a template-fitting algorithm and a convolutional neural network (CNN). In this work, we compare the preliminary offline performance of both FLT methods in terms of signal selection efficiency and background rejection efficiency. We find that for both methods, ≳40%≳40% of the background can be rejected if a signal selection efficiency of 90% is required at the 5σ5σ level.

Original language	English
Title of host publication	Development of an Autonomous Detection-Unit Self-Trigger for GRAND
Publisher	Proceedings of Science
Number of pages	8
Publication status	Published - 2 Sept 2024

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hep-ex

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2409.01026v1Final published version, 996 KBLicence: CC BY-NC-ND

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SRP72: SRP-Onderzoekszwaartepunt: High-energy physics (HEP@VUB).
Craps, B. (Administrative Promotor), D'Hondt, J. (Administrative Promotor), D'Hondt, J. (CoI (Co-Promotor)), Buitink, S. (Co-Promotor), Craps, B. (Co-Promotor), De Vries, K. (Co-Promotor), Lowette, S. (Co-Promotor), Mariotti, A. (CoI (Co-Promotor)), Tytgat, M. (CoI (Co-Promotor)), Uhlemann, C. (CoI (Co-Promotor)), Sevrin, A. (CoI (Co-Promotor)) & Van Eijndhoven, N. (CoI (Co-Promotor))
1/11/22 → 31/10/29
Project: Fundamental

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title = "Development of an Autonomous Detection-Unit Self-Trigger for GRAND",

abstract = "One of the major challenges for the radio detection of extensive air showers, as encountered by the Giant Radio Array for Neutrino Detection (GRAND), is the requirement of an autonomous radio self-trigger. This work presents the current development of self-triggering techniques at the detection-unit level -- the so-called first-level trigger (FLT) -- in the context of the NUTRIG project. A second-level trigger (SLT) at the array level is described in a separate contribution. Two FLT methods are described, based on a template-fitting algorithm and a convolutional neural network (CNN). In this work, we compare the preliminary offline performance of both FLT methods in terms of signal selection efficiency and background rejection efficiency. We find that for both methods, ≳40%≳40% of the background can be rejected if a signal selection efficiency of 90% is required at the 5σ5σ level.",

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author = "Tim Huege and Kumiko Kotera",

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T1 - Development of an Autonomous Detection-Unit Self-Trigger for GRAND

AU - Huege, Tim

AU - Kotera, Kumiko

PY - 2024/9/2

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N2 - One of the major challenges for the radio detection of extensive air showers, as encountered by the Giant Radio Array for Neutrino Detection (GRAND), is the requirement of an autonomous radio self-trigger. This work presents the current development of self-triggering techniques at the detection-unit level -- the so-called first-level trigger (FLT) -- in the context of the NUTRIG project. A second-level trigger (SLT) at the array level is described in a separate contribution. Two FLT methods are described, based on a template-fitting algorithm and a convolutional neural network (CNN). In this work, we compare the preliminary offline performance of both FLT methods in terms of signal selection efficiency and background rejection efficiency. We find that for both methods, ≳40%≳40% of the background can be rejected if a signal selection efficiency of 90% is required at the 5σ5σ level.

AB - One of the major challenges for the radio detection of extensive air showers, as encountered by the Giant Radio Array for Neutrino Detection (GRAND), is the requirement of an autonomous radio self-trigger. This work presents the current development of self-triggering techniques at the detection-unit level -- the so-called first-level trigger (FLT) -- in the context of the NUTRIG project. A second-level trigger (SLT) at the array level is described in a separate contribution. Two FLT methods are described, based on a template-fitting algorithm and a convolutional neural network (CNN). In this work, we compare the preliminary offline performance of both FLT methods in terms of signal selection efficiency and background rejection efficiency. We find that for both methods, ≳40%≳40% of the background can be rejected if a signal selection efficiency of 90% is required at the 5σ5σ level.

KW - hep-ex

M3 - Conference paper

BT - Development of an Autonomous Detection-Unit Self-Trigger for GRAND

PB - Proceedings of Science

ER -

Development of an Autonomous Detection-Unit Self-Trigger for GRAND

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SRP72: SRP-Onderzoekszwaartepunt: High-energy physics (HEP@VUB).

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