- Main
A high precision calibration of the nonlinear energy response at Daya Bay
- Adey, D;
- An, FP;
- Balantekin, AB;
- Band, HR;
- Bishai, M;
- Blyth, S;
- Cao, D;
- Cao, GF;
- Cao, J;
- Chang, JF;
- Chang, Y;
- Chen, HS;
- Chen, SM;
- Chen, Y;
- Chen, YX;
- Cheng, J;
- Cheng, ZK;
- Cherwinka, JJ;
- Chu, MC;
- Chukanov, A;
- Cummings, JP;
- Dash, N;
- Deng, FS;
- Ding, YY;
- Diwan, MV;
- Dohnal, T;
- Dove, J;
- Dvořák, M;
- Dwyer, DA;
- Gonchar, M;
- Gong, GH;
- Gong, H;
- Gu, WQ;
- Guo, JY;
- Guo, L;
- Guo, XH;
- Guo, YH;
- Guo, Z;
- Hackenburg, RW;
- Hans, S;
- He, M;
- Heeger, KM;
- Heng, YK;
- Higuera, A;
- Hor, YK;
- Hsiung, YB;
- Hu, BZ;
- Hu, JR;
- Hu, T;
- Hu, ZJ;
- Huang, HX;
- Huang, XT;
- Huang, YB;
- Huber, P;
- Jaffe, DE;
- Jen, KL;
- Jetter, S;
- Ji, XL;
- Ji, XP;
- Johnson, RA;
- Jones, D;
- Kang, L;
- Kettell, SH;
- Koerner, LW;
- Kohn, S;
- Kramer, M;
- Langford, TJ;
- Lebanowski, L;
- Lee, J;
- Lee, JHC;
- Lei, RT;
- Leitner, R;
- Leung, JKC;
- Li, C;
- Li, F;
- Li, HL;
- Li, QJ;
- Li, S;
- Li, SC;
- Li, SJ;
- Li, WD;
- Li, XN;
- Li, XQ;
- Li, YF;
- Li, ZB;
- Liang, H;
- Lin, CJ;
- Lin, GL;
- Lin, S;
- Lin, SK;
- Ling, JJ;
- Link, JM;
- Littenberg, L;
- Littlejohn, BR;
- Liu, JC;
- Liu, JL;
- Liu, Y;
- Liu, YH;
- Lu, C;
- Lu, HQ;
- Lu, JS;
- Luk, KB;
- Ma, XB;
- Ma, XY;
- Ma, YQ;
- Marshall, C;
- Caicedo, DA Martinez;
- McDonald, KT;
- McKeown, RD;
- Mitchell, I;
- Lepin, L Mora;
- Napolitano, J;
- Naumov, D;
- Naumova, E;
- Ochoa-Ricoux, JP;
- Olshevskiy, A;
- Pan, H-R;
- Park, J;
- Patton, S;
- Pec, V;
- Peng, JC;
- Pinsky, L;
- Pun, CSJ;
- Qi, FZ;
- Qi, M;
- Qian, X;
- Raper, N;
- Ren, J;
- Rosero, R;
- Roskovec, B;
- Ruan, XC;
- Steiner, H;
- Sun, JL;
- Treskov, K;
- Tse, W-H;
- Tull, CE;
- Viren, B;
- Vorobel, V;
- Wang, CH;
- Wang, J;
- Wang, M;
- Wang, NY;
- Wang, RG;
- Wang, W;
- Wang, W;
- Wang, X;
- Wang, Y;
- Wang, YF;
- Wang, Z;
- Wang, Z;
- Wang, ZM;
- Wei, HY;
- Wei, LH;
- Wen, LJ;
- Whisnant, K;
- White, CG;
- Wong, HLH;
- Wong, SCF;
- Worcester, E;
- Wu, Q;
- Wu, WJ;
- Xia, DM;
- Xing, ZZ;
- Xu, JL;
- Xue, T;
- Yang, CG;
- Yang, L;
- Yang, MS;
- Yang, YZ;
- Ye, M;
- Yeh, M;
- Young, BL;
- Yu, HZ;
- Yu, ZY;
- Yue, BB;
- Zeng, S;
- Zeng, Y;
- Zhan, L;
- Zhang, C;
- Zhang, CC;
- Zhang, FY;
- Zhang, HH;
- Zhang, JW;
- Zhang, QM;
- Zhang, R;
- Zhang, XF;
- Zhang, XT;
- Zhang, YM;
- Zhang, YM;
- Zhang, YX;
- Zhang, YY;
- Zhang, ZJ;
- Zhang, ZP;
- Zhang, ZY;
- Zhao, J;
- Zhou, L;
- Zhuang, HL;
- Zou, JH
- et al.
Abstract
A high precision calibration of the nonlinearity in the energy response of the Daya Bay Reactor Neutrino Experiment's antineutrino detectors is presented in detail. The energy nonlinearity originates from the particle-dependent light yield of the scintillator and charge-dependent electronics response. The nonlinearity model is constrained by γ calibration points from deployed and naturally occurring radioactive sources, the β spectrum from 12B decays, and a direct measurement of the electronics nonlinearity with a new flash analog-to-digital converter readout system. Less than 0.5% uncertainty in the energy nonlinearity calibration is achieved for positrons of kinetic energies greater than 1 MeV.
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