Neutrino models based on flavour symmetries provide a natural way to explain the origin of tiny neutrino masses. At the dawn of precision measurements of neutrino oscillation parameters, neutrino mass models can be constrained and examined by on-going and up-coming neutrino experiments. We present a supplemental tool Flavour Symmetry Embedded (FaSE) for General Long Baseline Experiment Simulator (GLoBES), and it is available on https://github.com/tcwphy/FASE_GLoBES. It can translate the neutrino mass model parameters into standard neutrino oscillation parameters and offer prior functions in a user-friendly way. We demonstrate the robustness of FaSE-GLoBES with four examples on how the model parameters can be constrained and whether the model is excluded by an experiment or not. We wish that this toolkit will facilitate the study of new neutrino mass models.

Program summary

Program title: FaSE

CPC Library link to program files: https://doi.org/10.17632/23bnpf2vps.1

Developer’s repository link: https://github.com/tcwphy/FASE_GLoBES

Licencing provisions: GNU General Public Licence 3

Programming language: C/C++

Nature of problem: The FaSE package serves to provide a toolkit for GLoBES for testing flavour symmetry models in neutrino oscillation experiments.

Solution method: Two files are provided in FaSE: ‘FaSE_GLoBES.c’ and ‘model-input.c’. The function of ‘FaSE_GLoBES.c’ is to simulate the probability profile and implement the prior values for standard neutrino oscillation parameters, which are translated from the model parameters given by the user. While ‘FaSE_GLoBES.c’ does not need any modification, the user-defined input, which includes the model set up and any restrictions on the model parameters, are defined in ‘model-input.c’.

Additional comments including restrictions and unusual features: This toolkit is not a standalone program, but it requires an installation of GLoBES version 3.0.0 or higher.

中文翻译：

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嵌入式风味对称-GLoBES（FaSE-GLoBES）

基于风味对称性的中微子模型为解释微小中微子质量的起源提供了一种自然的方式。在中微子振荡参数精确测量的曙光中，中微子质量模型可以通过正在进行的和即将进行的中微子实验来进行约束和检验。我们提出了一个补充工具˚F升一vour小号ymmetry ë mbedded（FASE为）ģ ENERAL罗纳克乙数基线Ë xperiment小号imulator（地球仪），并且可以在https://github.com/tcwphy/FASE_GLoBES上找到。它可以将中微子质量模型参数转换为标准中微子振荡参数，并以用户友好的方式提供先有功能。我们通过四个示例来证明FaSE-GLoBES的鲁棒性，这些示例如何约束模型参数以及是否通过实验排除了模型。我们希望该工具包将有助于研究新的中微子质量模型。

计划摘要

计划名称： FaSE

CPC库链接到程序文件： https : //doi.org/10.17632/23bnpf2vps.1

开发人员的资料库链接： https : //github.com/tcwphy/FASE_GLoBES

许可条款：GNU通用公共许可3

编程语言： C / C ++

问题性质： FaSE软件包可为GLoBES提供一个工具包，用于在中微子振荡实验中测试风味对称性模型。

解决方法： FaSE中提供了两个文件：“ FaSE_GLoBES.c ”和“ model-input.c ”。FaSE_GLoBES.c的功能是模拟概率分布并实现标准中微子振荡参数的先验值，这些先验值是从用户给出的模型参数转换而来的。尽管'FaSE_GLoBES.c'不需要任何修改，但是用户定义的输入（包括模型设置和对模型参数的任何限制）都在' model-input.c '中定义。

其他注释，包括限制和异常功能：该工具包不是独立程序，但需要安装GLoBES 3.0.0或更高版本。