BibTex format
@article{Zhang:2024:epjc/s10052-024-13306-3,
author = {Zhang, C and Zennamo, J and Zamorano, B and Yu, J and Yu, B and Yates, L and Yang, T and Yandel, E and Yadav, S and Worcester, M and Worcester, E and Wongjirad, T and Wilson, P and Wilkinson, A and White, A and Wester, T and Wei, H and Weber, M and Wan, L and Vázquez-Ramos, A and Van, de Water RG and Valdiviesso, GA and Tung, L and Touramanis, C and Toups, M and Totani, D and Szelc, AM and Strauss, T and Stenico, GV and Stancari, M and Spooner, NJC and Spitz, J and Söldner-Rembold, S and Soderberg, M and Soares-Nunes, M and Slater, B and Shaevitz, M and Sensenig, J and Segreto, E and Scott, H and Schukraft, A and Schneider, A and Schmitz, DW and Sanchez-Lucas, P and Sanchez-Castillo, A and Safa, I and Ross-Lonergan, M and Roda, M and Reggiani-Guzzo, M and Ray, H and Ratoff, P and Rajagopalan, R and Qian, X and Putnam, G and Psihas, F and Plows, J and Pimentel, VL and Pelegrina-Gutiérrez, L and Payne, D and Pavlovic, Z and Paulucci, L and Paton, J and Parkinson, HB and Papadopoulou, A a},
doi = {epjc/s10052-024-13306-3},
journal = {European Physical Journal C},
title = {Scintillation light in SBND: simulation, reconstruction, and expected performance of the photon detection system},
url = {http://dx.doi.org/10.1140/epjc/s10052-024-13306-3},
volume = {84},
year = {2024}
}
RIS format (EndNote, RefMan)
TY - JOUR
AB - SBND is the near detector of the Short-Baseline Neutrino program at Fermilab. Its location near to the Booster Neutrino Beam source and relatively large mass will allow the study of neutrino interactions on argon with unprecedented statistics. This paper describes the expected performance of the SBND photon detection system, using a simulated sample of beam neutrinos and cosmogenic particles. Its design is a dual readout concept combining a system of 120 photomultiplier tubes, used for triggering, with a system of 192 X-ARAPUCA devices, located behind the anode wire planes. Furthermore, covering the cathode plane with highly-reflective panels coated with a wavelength-shifting compound recovers part of the light emitted towards the cathode, where no optical detectors exist. We show how this new design provides a high light yield and a more uniform detection efficiency, an excellent timing resolution and an independent 3D-position reconstruction using only the scintillation light. Finally, the whole reconstruction chain is applied to recover the temporal structure of the beam spill, which is resolved with a resolution on the order of nanoseconds.
AU - Zhang,C
AU - Zennamo,J
AU - Zamorano,B
AU - Yu,J
AU - Yu,B
AU - Yates,L
AU - Yang,T
AU - Yandel,E
AU - Yadav,S
AU - Worcester,M
AU - Worcester,E
AU - Wongjirad,T
AU - Wilson,P
AU - Wilkinson,A
AU - White,A
AU - Wester,T
AU - Wei,H
AU - Weber,M
AU - Wan,L
AU - Vázquez-Ramos,A
AU - Van,de Water RG
AU - Valdiviesso,GA
AU - Tung,L
AU - Touramanis,C
AU - Toups,M
AU - Totani,D
AU - Szelc,AM
AU - Strauss,T
AU - Stenico,GV
AU - Stancari,M
AU - Spooner,NJC
AU - Spitz,J
AU - Söldner-Rembold,S
AU - Soderberg,M
AU - Soares-Nunes,M
AU - Slater,B
AU - Shaevitz,M
AU - Sensenig,J
AU - Segreto,E
AU - Scott,H
AU - Schukraft,A
AU - Schneider,A
AU - Schmitz,DW
AU - Sanchez-Lucas,P
AU - Sanchez-Castillo,A
AU - Safa,I
AU - Ross-Lonergan,M
AU - Roda,M
AU - Reggiani-Guzzo,M
AU - Ray,H
AU - Ratoff,P
AU - Rajagopalan,R
AU - Qian,X
AU - Putnam,G
AU - Psihas,F
AU - Plows,J
AU - Pimentel,VL
AU - Pelegrina-Gutiérrez,L
AU - Payne,D
AU - Pavlovic,Z
AU - Paulucci,L
AU - Paton,J
AU - Parkinson,HB
AU - Papadopoulou,A
AU - Pandey,V
AU - Pallat,N
AU - Palamara,O
AU - Oza,N
AU - Oh,S
AU - Nowak,J
AU - Nicolas-Arnaldos,F
AU - Nguyen,VCL
AU - Nebot-Guinot,M
AU - Navrer-Agasson,A
AU - Mulleriababu,S
AU - Moura,CA
AU - Moor,AF
AU - Mooney,M
AU - Mendez,D
AU - Meddage,V
AU - McCusker,B
AU - McConkey,N
AU - Mavrokoridis,K
AU - Mastbaum,A
AU - Marinho,F
AU - Mariani,C
AU - Machado,P
AU - Machado,A
AU - Luo,X
AU - Louis,WC
AU - Littlejohn,B
AU - Lin,K
AU - Li,JY
AU - LaZur,R
AU - Lay,H
AU - Larkin,J
AU - Kudryavtsev,VA
AU - Kroupová,T
AU - Kotsiopoulou,L
AU - Klein,J
DO - epjc/s10052-024-13306-3
PY - 2024///
SN - 1434-6044
TI - Scintillation light in SBND: simulation, reconstruction, and expected performance of the photon detection system
T2 - European Physical Journal C
UR - http://dx.doi.org/10.1140/epjc/s10052-024-13306-3
VL - 84
ER -