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The TAIGA experiment in Tunka valley is expanding the present scintillation detector array with new TAIGA-Muon detector stations. A simulation model was developed for optimization of the layout of the new stations and study of the identification performance of the array. The extensive air showers (EASs) were simulated with the CORSIKA simulation tool, and the detector response was simulated with the GEANT4 package. EASs induced by gamma quanta or protons in the energy range from 1 PeV to 10 PeV and the zenith angle range from 0 degrees to 45 degrees, are used for these studies. For the identification of high energy extensive air showers, a method based on a neural network was suggested. With this method, the proton identification efficiency is more than 90%, while the gamma identification efficiency not less than 50%.

Identification of electromagnetic and hadronic EASs using neural network for TAIGA scintillation detector array

Astapov, I;Bezyazeekov, P;Blank, M;Bonvech, E;Borodin, A;Brueckner, M;Budnev, N;Bulan, A;Chernov, D;Chiavassa, A;Dyachok, A;Gafarov, A;Garmash, A;Grebenyuk, V;Gress, E;Gress, O;Gress, T;Grinyuk, A;Grishin, O;Horns, D;Igoshin, A;Ilyushin, M;Ivanova, AD;Ivanova, AL;Kalmykov, N;Kindin, V;Kiryuhin, S;Kokoulin, R;Kompaniets, K;Korosteleva, E;Kozhin, V;Kravchenko, E;Kryukov, A;Kuotb, A;Kuzmichev, L;Lagutin, A;Lavrova, M;Lemeshev, Y;Lubsandorzhiev, B;Lubsandorzhiev, N;Lukanov, A;Lukyantsev, D;Malakhov, S;Mirgazov, R;Mirzoyan, R;Monkhoev, R;Osipova, E;Pakhorukov, A;Pan, A;Pankov, L;Panov, L;Petrukhin, A;Poddubnyi, I;Podgrudkov, D;Poleschuk, V;Ponomareva, V;Popesku, M;Popova, E;Porelli, A;Postnikov, E;Prosin, V;Ptuskin, V;Pushnin, A;Raikin, R;Rubtsov, G;Ryabov, E;Sagan, Y;Samoliga, V;Satyshev, I;Silaev, A;Silaev, A;Sidorenkov, A;Sinegovsky, S;Skurikhin, A;Sokolov, A;Sulakov, V;Sveshnikova, L;Tabolenko, V;Tanaev, A;Tarashchansky, B;Ternovoy, M;Tkachev, L;Tluczykont, M;Togoo, R;Ushakov, N;Vaidyanathan, A;Volchugov, P;Volkov, N;Vorobyov, V;Voronin, D;Wischnewski, R;Zagorodnikov, A;Zhaglova, A;Zhurov, D;Yashin, I

2022-01-01

Abstract

The TAIGA experiment in Tunka valley is expanding the present scintillation detector array with new TAIGA-Muon detector stations. A simulation model was developed for optimization of the layout of the new stations and study of the identification performance of the array. The extensive air showers (EASs) were simulated with the CORSIKA simulation tool, and the detector response was simulated with the GEANT4 package. EASs induced by gamma quanta or protons in the energy range from 1 PeV to 10 PeV and the zenith angle range from 0 degrees to 45 degrees, are used for these studies. For the identification of high energy extensive air showers, a method based on a neural network was suggested. With this method, the proton identification efficiency is more than 90%, while the gamma identification efficiency not less than 50%.

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Scheda completa

Scheda completa (DC)

	Anno
	
			2022
		
	Titolo rivista
	
			JOURNAL OF INSTRUMENTATION
		
	N. Volume
	
			17
		
	Fascicolo
	
			5
		
	Pagine (da)
	
			P05023
		
	Pagine (a)
	
			-
		
	DOI
	
			https://dx.doi.org/10.1088/1748-0221/17/05/P05023
		
	Parole Chiave
	
			Data processing methods; Detector modelling and simulations I (interaction of radiation with matter, interaction of photons with matter, interaction of hadrons with matter, etc); Particle identification methods; Scintillators, scintillation and light emission processes (solid, gas and liquid scintillators)
		
	Tutti gli autori
	
			Astapov, I; Bezyazeekov, P; Blank, M; Bonvech, E; Borodin, A; Brueckner, M; Budnev, N; Bulan, A; Chernov, D; Chiavassa, A; Dyachok, A; Gafarov, A; Garmash, A; Grebenyuk, V; Gress, E; Gress, O; Gress, T; Grinyuk, A; Grishin, O; Horns, D; Igoshin, A; Ilyushin, M; Ivanova, AD; Ivanova, AL; Kalmykov, N; Kindin, V; Kiryuhin, S; Kokoulin, R; Kompaniets, K; Korosteleva, E; Kozhin, V; Kravchenko, E; Kryukov, A; Kuotb, A; Kuzmichev, L; Lagutin, A; Lavrova, M; Lemeshev, Y; Lubsandorzhiev, B; Lubsandorzhiev, N; Lukanov, A; Lukyantsev, D; Malakhov, S; Mirgazov, R; Mirzoyan, R; Monkhoev, R; Osipova, E; Pakhorukov, A; Pan, A; Pankov, L; Panov, L; Petrukhin, A; Poddubnyi, I; Podgrudkov, D; Poleschuk, V; Ponomareva, V; Popesku, M; Popova, E; Porelli, A; Postnikov, E; Prosin, V; Ptuskin, V; Pushnin, A; Raikin, R; Rubtsov, G; Ryabov, E; Sagan, Y; Samoliga, V; Satyshev, I; Silaev, A; Silaev, A; Sidorenkov, A; Sinegovsky, S; Skurikhin, A; Sokolov, A; Sulakov, V; Sveshnikova, L; Tabolenko, V; Tanaev, A; Tarashchansky, B; Ternovoy, M; Tkachev, L; Tluczykont, M; Togoo, R; Ushakov, N; Vaidyanathan, A; Volchugov, P; Volkov, N; Vorobyov, V; Voronin, D; Wischnewski, R; Zagorodnikov, A; Zhaglova, A; Zhurov, D; Yashin, I
		
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			03A-Articolo su Rivista

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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/1931834

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