[{"data":1,"prerenderedAt":28},["ShallowReactive",2],{"program-physics-of-the-heaviest-98356":3},{"id":4,"name":5,"program":6,"department":7,"degree":8,"code":9,"gpa":10,"materials":10,"gre":10,"gmat":10,"ielts":10,"toefl":10,"studyMode":11,"years":12,"unit":13,"tuition":10,"startDate":10,"deadlineDate":10,"description":14,"add01Html":10,"universityId":15,"subjectAreaCode":12,"subjectAreaName":16,"subjectCode":17,"subjectName":18,"qsRank":19,"usNewsRank":19,"timesRank":19,"shanghaiRank":19,"dstatus":11,"createdTime":20,"updatedTime":21,"universityName":22,"unEnglishName":23,"unAbbreviation":24,"unQsRank":25,"unCode":26,"unCity":10,"universityCode":10,"countryCode":27},98356,"大型强子对撞机最重粒子物理学","Physics of the Heaviest Particles at the LHC","Department of Physics","3","physics-of-the-heaviest-98356",null,1,"4","CNY","研究培训小组（RTG）以大型强子对撞机（LHC）研究为中心。它建立在亚琛工业大学科学小组的特殊优势以及理论与实验之间密切合作的传统之上。实验小组是CMS合作的一部分，为探测器建造、升级、计算和数据分析做出了重大贡献。理论小组涵盖了从量子色动力学中的精确计算到暗物质现象学的广泛主题。该RTG旨在研究已知和理论上最重的粒子。重点将放在：1）希格斯玻色子，作为通向新物理的潜在窗口；2）顶夸克，作为最重的夸克，可能与自发对称破缺有关；3）最可能存在的重型但尚未发现的新物理粒子。特别是，RTG的目的是通过研究希格斯玻色子的性质，例如标量与费米子、规范玻色子以及其自身的耦合，来增强对希格斯机制结构的根本理解。此外，顶夸克的特殊作用被利用，它既是主要背景过程的来源，也是通向新物理的纽带。同时，顶夸克截面用于执行标准模型测试并提取基本参数。最后，LHC的潜力在发现重型暗物质粒子方面得到了充分探索。",2478,"自然科学","407","物理学与天文学",0,"2025-10-25 13:04:38","2026-02-05 13:45:15","亚琛工业大学","RWTH Aachen University","RWTH","0","rwth","de",1772699377573]