粒子物理以量子场论为依托，通过高能物理实验，对微观世界中物质的结构、性质以及相互作用规律进行研究。近年来随着对撞机能量、亮度以及探测器精度的提高,对理论计算的精度要求也越来越高，使得理论研究必须借助计算机进行。FDC就是这样一个应用微扰场论方法进行自动化计算的软件包。本项目致力于在现有基础上进一步发展自动化计算系统FDC，拟将其发展成适用于各种物理模型下单圈物理过程研究的自动化工具，以满足不同物理问题研究的需求。同时随着Higgs粒子的发现，对Higgs粒子性质的研究以及新物理的探索，已成为粒子物理研究的热点。在本项目中，亦将根据FDC系统的发展情况，结合实验需求，对大型对撞机上Higgs以及新物理相关过程开展研究。本项目对进一步检验和发展标准模型、深化人们对微观世界的结构及基本规律的认识有重要意义。

Particle Physics is a field on structure, nature and basic law of matter in microscopic world, based on quantum field theory and via high energy experiment. In recent yeas, the energy and luminosity of colliders and precision of detectors have been gradually improved. This demands theoretical study to be more and more precise, which makes it necessary to do research work with the help of computers. FDC is such an automatic calculation package based on perturbative field theory. In this project, we will focus on the further development of the automatic calculation system, FDC, and make it an automatic tool for one-loop physical study under various physics models to fulfill the request of different physical studies. Meanwhile, as the discovery of Higgs boson, research on the property of Higgs boson, as well as the search for new physics, have been the hot spot in particle physics. In this project, we will also study on these issues, according to the development of FDC and request of experiment measurements. This project will play an important role in further examining and developing the Standard Model, and will deepen our current understanding on the basic law and structure of the microscopic world.