[{"data":1,"prerenderedAt":100},["ShallowReactive",2],{"university-epfl":3,"country-info-ch":19,"programs-epfl":26},{"id":4,"countryId":5,"name":6,"englishName":7,"abbreviation":8,"code":9,"city":10,"qsRank":11,"usNewsRank":11,"timesRank":11,"shanghaiRank":11,"description":12,"popularity":13,"dstatus":14,"createdTime":15,"updatedTime":16,"countryCode":17,"countryName":18},2351,3,"洛桑联邦理工学院","École Polytechnique Fédérale de Lausanne（EPFL）","EPFL","epfl",null,0,"École Polytechnique Fédérale de Lausanne（EPFL），即洛桑联邦理工学院，位于瑞士西部的法语区，主校区坐落于日内瓦湖畔的洛桑市。学校成立于1853年，最初为一所私立学校，于1969年成为一所由瑞士联邦直接管理的国立大学。\n\n该大学由多个学院和跨学科中心组成，其核心学院包括基础科学学院、工程学院、计算机与通信科学学院、生命科学学院、环境、建筑与土木工程学院，以及管理学院。此外，学校还设有致力于推动跨学科研究的瑞士生物信息学研究所和瑞士实验癌症研究所等机构。\n\nEPFL的强势专业在全球范围内享有极高声誉，尤其在工程与科技领域。其电气工程、计算机科学、材料科学、化学工程、机械工程、物理学、建筑学以及生命科学相关专业均位列世界前茅。学校在微技术、机器人、可再生能源和计算生物学等前沿交叉学科领域的研究也处于领先地位。\n\n根据学校公布的2023/2024学年数据，EPFL共有约12,500名学生（包括本科生、硕士生和博士生）以及超过6,500名教职员工和研究人员（其中教授约350名）。据此估算，其师生比例约为1:18。该数据是截至2025年可获取的最新官方统计数据。",50,1,"2026-01-13 16:34:51","2026-01-20 10:36:50","ch","瑞士",{"id":5,"name":18,"countryCode":17,"continentType":20,"continent":21,"description":22,"popularity":10,"isDisplay":23,"dstatus":14,"createdTime":24,"updatedTime":25,"programCount":11},"2","欧洲国家","教育质量高，国际化程度高，酒店管理专业世界领先，良好的生活品质与安全环境",2,"2025-07-24 16:52:53","2026-02-09 10:32:19",{"pageNumber":14,"pageSize":27,"total":28,"programs":29,"ym":99},10,82,[30,44,47,56,59,71,74,80,90,93],{"id":31,"name":32,"program":33,"department":34,"degree":20,"code":35,"gpa":10,"materials":10,"gre":10,"gmat":10,"ielts":10,"toefl":10,"studyMode":14,"years":36,"unit":37,"tuition":38,"startDate":10,"deadlineDate":10,"description":39,"add01Html":10,"universityId":4,"subjectAreaCode":40,"subjectAreaName":41,"subjectCode":10,"subjectName":42,"qsRank":11,"usNewsRank":11,"timesRank":11,"shanghaiRank":11,"dstatus":10,"createdTime":10,"updatedTime":10,"universityName":6,"unEnglishName":7,"unAbbreviation":8,"unQsRank":43,"unCode":9,"unCity":10,"universityCode":10,"countryCode":10},91371,"行政管理硕士","Executive Master","École Polytechnique","executive-master-91371","1.2","CNY",471000,"行政管理硕士是巴黎综合理工学院面向高级管理人员的旗舰学位课程。该课程旨在应对国际领导力方面的挑战，是晋升高级管理职位的真正跳板，满足了全球执行委员会的期望。技术、管理和领导力在这个项目中结合在一起，为高级研究领域的尖端创新提供了深入的探索。模块化和灵活的形式结构适合您的职业日程，使您能够在继续工作的同时学习。该计划向来自所有部门和学术背景（工程、商学院、政治学等）的专业人士开放，专为那些希望了解创新以更好地推动创新的人士量身定制。","5","社会科学与管理","管理学","0",{"id":45,"name":32,"program":33,"department":34,"degree":20,"code":46,"gpa":10,"materials":10,"gre":10,"gmat":10,"ielts":10,"toefl":10,"studyMode":23,"years":36,"unit":37,"tuition":38,"startDate":10,"deadlineDate":10,"description":39,"add01Html":10,"universityId":4,"subjectAreaCode":40,"subjectAreaName":41,"subjectCode":10,"subjectName":42,"qsRank":11,"usNewsRank":11,"timesRank":11,"shanghaiRank":11,"dstatus":10,"createdTime":10,"updatedTime":10,"universityName":6,"unEnglishName":7,"unAbbreviation":8,"unQsRank":43,"unCode":9,"unCity":10,"universityCode":10,"countryCode":10},91372,"executive-master-91372",{"id":48,"name":49,"program":50,"department":34,"degree":51,"code":52,"gpa":10,"materials":10,"gre":10,"gmat":10,"ielts":10,"toefl":10,"studyMode":14,"years":10,"unit":37,"tuition":10,"startDate":10,"deadlineDate":10,"description":53,"add01Html":10,"universityId":4,"subjectAreaCode":40,"subjectAreaName":41,"subjectCode":54,"subjectName":55,"qsRank":11,"usNewsRank":11,"timesRank":11,"shanghaiRank":11,"dstatus":10,"createdTime":10,"updatedTime":10,"universityName":6,"unEnglishName":7,"unAbbreviation":8,"unQsRank":43,"unCode":9,"unCity":10,"universityCode":10,"countryCode":10},91373,"如何撰写和发表科学论文（以项目为中心的课程）","How to Write and Publish a Scientific Paper (Project-Centered Course)","6","how-to-write-publish-91373","在本基于项目的课程中，您将概述一篇完整的科学论文，选择一份合适的期刊来提交您完成的论文以供发表，并准备一份清单，使您能够独立判断您的论文是否已准备好提交。您需要什么才能开始：本课程专为具有学术研究经验的学生设计 - 您应该渴望将我们的写作和出版建议应用到现有的个人项目中。如果您刚刚完成您的研究生论文，刚刚开始您的博士学位，或者正处于学术旅程或职业生涯的不同阶段，并且只想发表您的作品，那么本课程适合您。*关于以项目为中心的课程：以项目为中心的课程旨在帮助您完成一个具有个人意义的真实项目，您的讲师和一个具有相似目标的学习者社区将一路提供指导和建议。通过在学习时积极应用新概念，您将更有效地掌握课程内容；您还将抢先一步使用您获得的技能来对您的生活和事业做出积极的改变。当您完成课程时，您将完成一个您会自豪地使用和分享的项目。","513","其他社会科学",{"id":57,"name":49,"program":50,"department":34,"degree":51,"code":58,"gpa":10,"materials":10,"gre":10,"gmat":10,"ielts":10,"toefl":10,"studyMode":23,"years":10,"unit":37,"tuition":10,"startDate":10,"deadlineDate":10,"description":53,"add01Html":10,"universityId":4,"subjectAreaCode":40,"subjectAreaName":41,"subjectCode":54,"subjectName":55,"qsRank":11,"usNewsRank":11,"timesRank":11,"shanghaiRank":11,"dstatus":10,"createdTime":10,"updatedTime":10,"universityName":6,"unEnglishName":7,"unAbbreviation":8,"unQsRank":43,"unCode":9,"unCity":10,"universityCode":10,"countryCode":10},91374,"how-to-write-publish-91374",{"id":60,"name":61,"program":62,"department":34,"degree":51,"code":63,"gpa":10,"materials":10,"gre":10,"gmat":10,"ielts":10,"toefl":10,"studyMode":14,"years":10,"unit":37,"tuition":10,"startDate":64,"deadlineDate":65,"description":66,"add01Html":10,"universityId":4,"subjectAreaCode":67,"subjectAreaName":68,"subjectCode":69,"subjectName":70,"qsRank":11,"usNewsRank":11,"timesRank":11,"shanghaiRank":11,"dstatus":10,"createdTime":10,"updatedTime":10,"universityName":6,"unEnglishName":7,"unAbbreviation":8,"unQsRank":43,"unCode":9,"unCity":10,"universityCode":10,"countryCode":10},91381,"两个无限与我们 - 从无限大到无限小的旅行","Les deux infinis et nous - Voyages de l'infiniment grand à l'infiniment petit","infiniment-petit-91381","2024-01-01 00:00:00","2025-12-31 00:00:00","与物理学家们一起探索无限大和无限小在我们日常生活中最接近的方面，他们将帮助你发现它们在我们日常生活中不为人知的存在。您将了解无限小和无限大物理学中大型合作的生活和工作，您将发现这些领域中开发的工具如何找到意想不到的应用，核物理如何深刻地改变了能源和健康领域，以及某些粒子的特性现在如何帮助其他学科以完全不同的方式探测物质。这门法语课程是MOOC“从无限大到无限小的旅行”的一部分，由Labex P2IO（2个无限和起源物理学）的物理学家设计，汇集了位于奥赛和萨克莱的无限大和无限小物理实验室。本MOOC的不同课程将向您展示无限大和无限小的知识和谜题，这两个无限之间的关系，以及这些发现与社会的联系。","4","自然科学","407","物理学与天文学",{"id":72,"name":61,"program":62,"department":34,"degree":51,"code":73,"gpa":10,"materials":10,"gre":10,"gmat":10,"ielts":10,"toefl":10,"studyMode":23,"years":10,"unit":37,"tuition":10,"startDate":64,"deadlineDate":65,"description":66,"add01Html":10,"universityId":4,"subjectAreaCode":67,"subjectAreaName":68,"subjectCode":69,"subjectName":70,"qsRank":11,"usNewsRank":11,"timesRank":11,"shanghaiRank":11,"dstatus":10,"createdTime":10,"updatedTime":10,"universityName":6,"unEnglishName":7,"unAbbreviation":8,"unQsRank":43,"unCode":9,"unCity":10,"universityCode":10,"countryCode":10},91382,"infiniment-petit-91382",{"id":75,"name":76,"program":77,"department":10,"degree":51,"code":78,"gpa":10,"materials":10,"gre":10,"gmat":10,"ielts":10,"toefl":10,"studyMode":14,"years":10,"unit":37,"tuition":10,"startDate":10,"deadlineDate":10,"description":79,"add01Html":10,"universityId":4,"subjectAreaCode":67,"subjectAreaName":68,"subjectCode":69,"subjectName":70,"qsRank":11,"usNewsRank":11,"timesRank":11,"shanghaiRank":11,"dstatus":10,"createdTime":10,"updatedTime":10,"universityName":6,"unEnglishName":7,"unAbbreviation":8,"unQsRank":43,"unCode":9,"unCity":10,"universityCode":10,"countryCode":10},91390,"量子力学","Mécanique quantique","canique-quantique-91390","正如从二十世纪初开始进行的越来越多的实验所表明的那样，当人们试图将牛顿力学定律应用于非常小的尺度（原子、分子或原子核）时，这些定律就不再有效。然后，我们进入量子力学领域，物理定律呈现出完全不同的性质，这种性质可以在 20 世纪 20 年代末被严格地形式化。这场真正的知识革命不仅对于理解物理世界的真正本质（从基本粒子到大爆炸）至关重要，而且也是大多数现代技术（如微电子、激光或光通信）的起源。本课程是对量子力学的初步介绍。通过采用历史方法并依靠实验和理论之间的对抗，它将使您能够理解量子力学的基本原理，并了解它的一些应用。本课程将包括以下八个部分。 1. 波粒二象性 2. 波函数 3. 傅里叶变换 4. 从冲量到哈密顿量 5. 受限量子粒子 6. 单个量子测量 7. 然后是一维势 8. 隧道效应",{"id":81,"name":82,"program":83,"department":34,"degree":51,"code":84,"gpa":10,"materials":10,"gre":10,"gmat":10,"ielts":10,"toefl":10,"studyMode":14,"years":10,"unit":37,"tuition":10,"startDate":85,"deadlineDate":65,"description":86,"add01Html":10,"universityId":4,"subjectAreaCode":20,"subjectAreaName":87,"subjectCode":88,"subjectName":89,"qsRank":11,"usNewsRank":11,"timesRank":11,"shanghaiRank":11,"dstatus":10,"createdTime":10,"updatedTime":10,"universityName":6,"unEnglishName":7,"unAbbreviation":8,"unQsRank":43,"unCode":9,"unCity":10,"universityCode":10,"countryCode":10},91392,"光伏太阳能","Photovoltaic solar energy","photovoltaic-solar-energy-91392","2023-01-01 00:00:00","本课程介绍光伏 (PV) 应用，主要介绍气候变暖缓解背景下的能源混合。首先介绍太阳能的各种用途，然后简要介绍太阳光子直接转化为电能 (PV) 的原理。在目前以晶体硅电池为主导的背景下，回顾了各种光伏技术。然后，根据研发投资分析各种技术的前景。从更科学的角度来看，介绍了太阳能电池工作的太阳光谱特性基础。总结了光伏转换的基本原理。特别是回顾了转换效率限制的各种来源。太阳能光伏系统，从电池到电网，也得到了解决，特别强调光伏电网集成的挑战和存储技术的发展。将光伏对环境和社会的影响与竞争能源进行了比较。一般来说，与其他化石或可再生能源相比，光伏具有优势。最后，介绍了光伏经济和融资的快速发展以及当前的主要参与者，主要是亚洲公司。","工程与技术","204","电气与电子工程",{"id":91,"name":82,"program":83,"department":34,"degree":51,"code":92,"gpa":10,"materials":10,"gre":10,"gmat":10,"ielts":10,"toefl":10,"studyMode":23,"years":10,"unit":37,"tuition":10,"startDate":85,"deadlineDate":65,"description":86,"add01Html":10,"universityId":4,"subjectAreaCode":20,"subjectAreaName":87,"subjectCode":88,"subjectName":89,"qsRank":11,"usNewsRank":11,"timesRank":11,"shanghaiRank":11,"dstatus":10,"createdTime":10,"updatedTime":10,"universityName":6,"unEnglishName":7,"unAbbreviation":8,"unQsRank":43,"unCode":9,"unCity":10,"universityCode":10,"countryCode":10},91393,"photovoltaic-solar-energy-91393",{"id":94,"name":95,"program":96,"department":10,"degree":51,"code":97,"gpa":10,"materials":10,"gre":10,"gmat":10,"ielts":10,"toefl":10,"studyMode":14,"years":10,"unit":37,"tuition":10,"startDate":10,"deadlineDate":10,"description":98,"add01Html":10,"universityId":4,"subjectAreaCode":20,"subjectAreaName":87,"subjectCode":88,"subjectName":89,"qsRank":11,"usNewsRank":11,"timesRank":11,"shanghaiRank":11,"dstatus":10,"createdTime":10,"updatedTime":10,"universityName":6,"unEnglishName":7,"unAbbreviation":8,"unQsRank":43,"unCode":9,"unCity":10,"universityCode":10,"countryCode":10},91395,"塑料电子学","Plastic electronics","plastic-electronics-91395","塑料电子学是一个四十年前出现的概念，源于导电聚合物的发现。十年后，第一批使用有机固体代替普遍存在的无机半导体的电子设备被实现。塑料电子学最杰出的成就是有机发光二极管（OLED），它装备了许多智能手机甚至电视机的显示屏。 本课程的目的是提供一个关于塑料电子器件物理学的全面概述。完成本课程后，学生应该能够展示以下主题的理论知识：有机半导体的概念；聚合物和有机半导体中的载流子传输；有机半导体的光学性质；从金属到有机固体的电荷注入；主要塑料电子器件的工作模式：有机发光二极管（OLED）、有机光伏电池（OPV）和有机场效应晶体管（OFET）。",9,1772699298999]