Using low energy atmospheric neutrinos for precision measurement of the mixing parameters

Proceedings of The 21st international workshop on neutrinos from accelerators — PoS(NuFact2019) Pub Date : 2019-11-22 DOI:10.22323/1.369.0035

H. Minakata, I. Martinez-Soler, K. Okumura

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引用次数: 6

Abstract

Use of low energy atmospheric neutrinos is considered for precision measurement of neutrino mixing parameters. At around energy $E \simeq$ a few $\times$100 MeV and baseline $L$ of a few $\times$1000 km, CP phase effect is $\sim$10 times larger than that of the conventional LBL accelerator neutrino experiments. We report here a few progresses: (1) To analyze physics in the region, a new perturbative framework at around the solar-scale enhancement is developed. (2) To know the characteristic features of CP $\delta$ dependence of the atmospheric neutrinos at low energies, we plot the ratio of the $\nu_{e}$ and $\bar{\nu}_{e}$ fluxes $F(\delta)/F(\delta=0)$ for $\delta=\pm \frac{\pi}{2}$ and $\pi$ as a function of $E$ using the Honda {\it et al.} flux. Interestingly, it shows $\delta$ dependence of $\simeq$5-10\% level, with positive (negative) sign for $\nu_{e}$ ($\bar{\nu}_{e}$). (3) To reduce the flux systematic errors, measurement of muon energy distribution around $\sim$1 GeV at high altitude may be useful. Water Cherenkov or muon range detectors may be the options with advantage in the latter if it is magnetized in view of the $\delta$ dependence of the flux.

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利用低能大气中微子对混合参数进行精确测量

考虑利用低能大气中微子来精确测量中微子混合参数。在能量为$E \simeq$几$\times$ 100 MeV和基线$L$几$\times$ 1000 km时，CP相位效应是传统LBL加速器中微子实验的$\sim$ 10倍。本文报告了以下几个进展:(1)为了分析该区域的物理，建立了一个新的太阳尺度增强周围的摄动框架。(2)为了了解低能大气中微子CP $\delta$依赖的特征特征，我们利用Honda人的通量绘制了$\delta=\pm \frac{\pi}{2}$和$\pi$的$\nu_{e}$和$\bar{\nu}_{e}$通量$F(\delta)/F(\delta=0)$与$E$的函数之比。有趣的是，它显示{\it}$\delta$依赖于$\simeq$ 5-10％的水平，$\nu_{e}$ ($\bar{\nu}_{e}$)为正(负)号。(3)为了减小通量系统误差，在高空测量$\sim$ 1 GeV附近的介子能量分布可能是有用的。考虑到通量的$\delta$依赖性，水切伦科夫或μ子距离探测器可能是后者的有利选择，如果它被磁化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of The 21st international workshop on neutrinos from accelerators — PoS(NuFact2019)

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