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標題: | 微中子與暗物質直接探測中的原子多體效應 Atomic Many-Body Effects in Direct Detection of Neutrinos and Dark Matters |
作者: | Chih-Pan Wu 吳峙磐 |
指導教授: | 陳俊瑋(Jiunn-Wei Chen) |
關鍵字: | 微中子,暗物質,惰性微中子,原子電離,鍺,氙,相對論混相理論, neutrino,dark matter,sterile neutrino,atomic ionization,germanium,xenon,randomphase approximation, |
出版年 : | 2017 |
學位: | 博士 |
摘要: | 微中子的電磁特性或各類暗物質(例:惰性微中子)造成探測器原子電離的過程對於目前很多使用純原子構成的探測器的直接探測實驗來說相當重要。尤其目前的微中子與暗物質的實驗已經將探測器偵測的能量範圍降低到千電子伏特以下,使用精確的原子多體方法才足以提供可靠的原子電離計算來和實驗對照。在有光游離數據和可解析的氫原子計算驗證的前提下,我們使用第一原理多體理論在5~10%的精確度內來表現原子多體效應如何影響微中子與暗物質對於鍺元素或氙元素中的電子的散射截面。本論文的主要目標是用第一原理多體理論來研究:(1) 微中子的電磁特性,(2) 暗物質基於有效場論的交互作用強度,(3) 太陽微中子在噸級液態氙探測器中造成的低能量電子反衝,它不僅是直接探測弱作用大質量粒子實驗中的一種不可約化的重要背景,也可以在標準太陽模型預測的精度水平下用來量測太陽微中子的通量。 The processes of atomic ionization of detectors by scattering with neutrinos in a search of their electromagnetic properties and with light dark matter candidates (e.g. sterile neutrino) are interested for many experimental groups, because those studies on neutrinos and dark matters rely on the direct detection with detectors composed by pure atom or crystal. As current experimental searches for neutrinos and dark matters have lowered the detector threshold down to the sub-keV regime, accurate many-body calculations for atomic ionization are warranted for giving reliable results of experimental comparisons. With the benchmark of photoionization and analytic hydrogen calculations, we perform ab initio many-body methods to show how atomic effects modify the cross sections of neutrino or dark matter scattering with electrons in Ge, Xe and other targets within 5~10% accuracy. The main goal is applying these methods to study (1) neutrino electromagnetic properties, (2) dark matter interactions within effective field theory framework, and (3) low-energy electronic recoil caused by solar neutrinos in multi-ton xenon detectors, which is an important subject not only because it is a source of the irreducible background for direct searches of weakly interacting massive particles (WIMPs), but also because it provides a viable way to measure the solar pp and 7Be neutrinos at the precision level of current standard solar model predictions. |
URI: | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/67000 |
DOI: | 10.6342/NTU201703027 |
全文授權: | 有償授權 |
顯示於系所單位: | 物理學系 |
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