Neutrino oscillation

Precise Measurement of Solar Neutrino Oscillation Parameters and Analysis of Sub-leading Effects

太阳中微子振荡参数的精确测量和次级效应分析

Neutrino oscillation is one of the most important achievements in particle physics in last ten years .

中微子振荡是最近十年粒子物理领域最重要的成就之一。

Outline on 2002 Nobel Prize of Physics : experiments of neutrino oscillation

2002年诺贝尔物理奖介绍：中微子振荡实验

Then the physical targets of the long baseline neutrino oscillation experiments are discussed . Sec .

由此提出长基线中微子振荡实验，论及它所能测量的物理目标和一些长基线中微子振荡实验的未来发展状况。

Nonquantum Mechanics Effect of Neutrino Oscillation Experiment of Ling Base Lone in Matter

在物质中长基线中微子振荡实验的非量子力学效应

The Feature Length of Neutrino Oscillation

中微子振荡的特征长度

Neutrino Oscillation and Solar Neutrino Problem

中微子振荡与太阳中微子问题

So , they may transform into other flavors in their propagation , and this is the so-called neutrino oscillation .

于是，它在传播过程中会发生味转化，即中微子振荡现象。

Neutrino oscillation in vacuum

论真空中的中微子振荡特性

Nevertheless , there are still flaws in the SM , such as the hierarchy problem , neutrino oscillation experiments and so on .

尽管如此，标准模型还存在着种种缺陷，例如等级差问题，中微子振荡现象等等。

CP Invariance in Neutrino Oscillation

在中微子振荡中的CP破坏

The water tank prototype with a dimension of 1m × 1m × 13m was constructed as a building block of the Cerenkov calorimeter for very long baseline neutrino oscillation experiments .

为了研究极长基线中微子振荡，构造了一个大小为1m×1m×13m水基切伦科夫量能器模型。

The definition of the feature length of neutrino oscillation and the proof that the feature length of neutrino oscillation is independent of the mixing angle and CP-violating have been given in the article .

本文对中微子振荡的特征长度作了定义，并给出了中微子振荡的特征长度与混合角及CP破坏无关的证明。

Precise measurement of θ 1 3 is an important goal in the next generation neutrino oscillation experiments . The BAYA-Bay reactor neutrino experiment located in southern China will play an important role in θ 1 3 detection .

对θ13进行精确测量是下一代中微子振荡实验的重要任务之一，而我国的大亚湾反应堆中微子实验将在其中起到重要的作用。

The light yield , the total light collection efficiency , the effective attenuation length and the angular dependent response of the tank are all good enough for the long baseline neutrino oscillation experiment , and can be further improved .

论证了该量能器的光产额，总的探测效率，水的有效衰减长度和粒子入射角度依赖关系都能很好的满足极长基线中微子振荡实验。

The neutrino oscillation mechanism has been confirmed as the solution to the solar neutrino problem . We give a detailed introduction of the theory of neutrino oscillations and also a detailed description of solar neutrinos propagation in solar interior .

中微子振荡机制已经被证实为太阳中微子缺失问题的合理解释，作为理论基础，我们在第三章中重点介绍了中微子振荡理论，并给出电子中微子在太阳内部具体传播行为的表述。

Neutrino Compounding and Oscillation Parameters Calculation and Physical Mechanism Analysis

中微子混合、振荡参数计算及物理机制分析

Neutrino flavor mixing and oscillation is the only evidence of physics beyond the standard model in particle physics supported by various experimental results and con-sidered as the key to search for new physics .

中微子味混合和振荡是目前唯一得到诸多实验结果支持的超出粒子物理标准模型的现象，被认为是发现新物理的突破口。

We have discussed the basic principle and the experiments of neutrino mixing and neutrino oscillation , and investigated quantificationally the theory of neutrino oscillation in vacuum , the neutrino oscillation probability and the CP violation effects .

讨论了中微子混合，中微子振荡的基本原理和实验情况，定量地研究了真空中中微子振荡的理论，计算了中微子振荡几率和CP破坏效应。

Neutrino mass , parity violation , neutrino oscillation and other topics

中微子质量，宇称不守恒，中微子振荡及其他

Two solar neutrino problems and some possible explanations were introduced in this paper . And the neutrino oscillation schemes were discussed in detail .

介绍了2个太阳中微子问题和解决太阳中微子问题的几种可能解释，并详细讨论了太阳中微子振荡方案。

After the development in more than half a century , neutrino experiments has come to a era of precise measurements of the oscilla-tion parameters from the discovery of neutrino oscillation phenomena .

经过半个多世纪的进展，中微子实验已经从发现振荡现象进入到精确测量振荡参数的时代。

Davis for detection of Solar neutrino missing and M.Koshiba for confirmation of the Solar neutrino missing , the detection of Supernova neutrino and detection of Atmospheric muon neutrino missing and muon neutrino oscillation .

M.Koshiba在证实存在太阳中微子丢失，探测超新星中微子和大气μ中微子丢失以及证明μ中微子振荡的成就。