Systematic impact of spent nuclear fuel on θ<SUB>13</SUB> sensitivity at reactor neutrino experiment

AN Feng-Peng; TIAN Xin-Chun; ZHAN Liang; CAO Jun

doi:10.1088/1674-1137/33/9/001

Chinese Physics C> 2009, Vol. 33> Issue(9) : 711-716 DOI: 10.1088/1674-1137/33/9/001

Systematic impact of spent nuclear fuel on θ₁₃ sensitivity at reactor neutrino experiment

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Reactor neutrino oscillation experiments, such as Daya Bay, Double Chooz and RENO are designed to determine the neutrino mixing angle θ₁₃ with a sensitivity of 0.01—0.03 in sin²2θ₁₃ at 90% confidence level, an improvement over the current limit by more than one order of magnitude. The control of systematic uncertainties is critical to achieving the sin²2θ₁₃ sensitivity goal of these experiments. Antineutrinos emitted from spent nuclear fuel (SNF) would distort the soft part of energy spectrum and may introduce a non-negligible systematic uncertainty. In this article, a detailed calculation of SNF neutrinos is performed taking account of the operation of a typical reactor and the event rate in the detector is obtained. A further estimation shows that the event rate contribution of SNF neutrinos is less than 0.2% relative to the reactor neutrino signals. A global χ² analysis shows that this uncertainty will degrade the θ₁₃ sensitivity at a negligible level.

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AN Feng-Peng, TIAN Xin-Chun, ZHAN Liang and CAO Jun. Systematic impact of spent nuclear fuel on θ₁₃ sensitivity at reactor neutrino experiment[J]. Chinese Physics C, 2009, 33(9): 711-716. doi: 10.1088/1674-1137/33/9/001

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Received: 2009-01-08
Revised: 2009-02-26

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通讯作者: 陈斌, bchen63@163.com

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沈阳化工大学材料科学与工程学院沈阳 110142

Systematic impact of spent nuclear fuel on θ₁₃ sensitivity at reactor neutrino experiment

Corresponding author: ZHAN Liang,

Received Date: 2009-01-08

Accepted Date: 2009-02-26

Available Online: 2009-09-05

Abstract:

Reactor neutrino oscillation experiments, such as Daya Bay, Double Chooz and RENO are designed to determine the neutrino mixing angle θ₁₃ with a sensitivity of 0.01—0.03 in sin²2θ₁₃ at 90% confidence level, an improvement over the current limit by more than one order of magnitude. The control of systematic uncertainties is critical to achieving the sin²2θ₁₃ sensitivity goal of these experiments. Antineutrinos emitted from spent nuclear fuel (SNF) would distort the soft part of energy spectrum and may introduce a non-negligible systematic uncertainty. In this article, a detailed calculation of SNF neutrinos is performed taking account of the operation of a typical reactor and the event rate in the detector is obtained. A further estimation shows that the event rate contribution of SNF neutrinos is less than 0.2% relative to the reactor neutrino signals. A global χ² analysis shows that this uncertainty will degrade the θ₁₃ sensitivity at a negligible level.

Systematic impact of spent nuclear fuel on θ₁₃ sensitivity at reactor neutrino experiment

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Systematic impact of spent nuclear fuel on θ13 sensitivity at reactor neutrino experiment

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Systematic impact of spent nuclear fuel on θ13 sensitivity at reactor neutrino experiment

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Systematic impact of spent nuclear fuel on θ₁₃ sensitivity at reactor neutrino experiment

Systematic impact of spent nuclear fuel on θ₁₃ sensitivity at reactor neutrino experiment