高校大科学装置推动教育、科技、人才一体发展的路径研究OA
Research on pathways for university-based large-scale scientific facilities to promote the integrated development of education,science,and talent
高校大科学装置是推动教育、科技、人才一体化发展的重要支点.该文首先简要分析了国内外大科学装置建设发展情况,详细阐述了高校大科学装置在促进教育与科技深度融合、推动人才培养体系重塑方面的内涵与作用.接着分析了当前高校在推动教育、科技、人才一体化发展中面临的组织壁垒、评价短期化和产学研协同脱节等问题,并以某高校建设的电磁驱动聚变大科学装置为案例,介绍了其在跨学科团队建设、长周期人才培养、产教融合与成果转化等方面的实践探索.最后提出高校需通过顶层设计、制度创新与开放协同,发挥大科学装置在推动教育、科技、人才一体发展中的综合功能,为实现教育、科技、人才高质量发展提供持续支撑.
[Objective]This study aims to demonstrate that large-scale scientific facilities hosted by universities serve as critical platforms for advancing the coordinated development of education,science,and talent,a foundational strategy for Chinese modernization.Education,science,and talent constitute the fundamental and strategic pillars of Chinese modernization,making it imperative to identify pathways and mechanisms for their integrated development to achieve high-quality growth.As key components of the national innovation system,large-scale scientific facilities,characterized by substantial investment,sophisticated technology,and long-term operation,play an irreplaceable role in advancing frontier science and cultivating talent to meet national strategic needs.However,the specific mechanisms through which university-hosted facilities promote the synergistic development of education,science,and talent remain underexplored and require systematic investigation.[Methods]This study adopts a case study approach,using Xi'an Jiaotong University as the focal case to examine how institutional innovation can facilitate the integration of large-scale scientific facilities with education and talent development.In recent years,Chinese universities have increasingly assumed leading roles in the construction and operation of such facilities.Compared with national research institutes,universities possess unique advantages in disciplinary breadth,human resources,and the integration of research and education.These university-based facilities embed frontier scientific resources into academic training,enabling real-time alignment between teaching and cutting-edge research.They also serve as interdisciplinary hubs,promoting collaboration across physics,materials science,engineering,and information science,thereby contributing to breakthroughs at key scientific and technological frontiers.Despite these advantages,the integration of large-scale scientific facilities within universities faces structural and institutional challenges.Structurally,discipline-based administrative systems constrain universities,resulting in a mismatch between the cross-domain nature of large-scale facilities and segmented management structures.Institutionally,short-term evaluation mechanisms hinder long-term scientific accumulation,while insufficient academia-industry linkages limit the translation of research outcomes into educational and technological innovation.Against this backdrop,this study analyzes how Xi'an Jiaotong University has leveraged institutional innovation to address these challenges.[Results]The analysis yields three key findings.First,centered on the construction of the"Electromagnetic-Driven Fusion"large-scale scientific facility,the university established an interdisciplinary framework linking electrical engineering,plasma physics,nuclear science,and materials science,thereby breaking down traditional departmental silos and enabling cross-disciplinary collaboration.Second,it developed integrated programs that embed experimental research into curricula,allowing students to engage in the full cycle of scientific practice—from project design and experimental implementation to data analysis and dissemination of results—thus incorporating cutting-edge research directly into the educational process.Third,long-term talent development mechanisms,such as the"Everest Plan"and the"Outstanding Undergraduate Program,"were implemented to create a coherent training pipeline across educational levels.Concurrently,initiatives such as"6352"and"1121"promoted deep collaboration among universities,research institutes,and industry,effectively translating scientific progress into educational reform and technological innovation.[Conclusions]This study concludes that large-scale scientific facilities in universities function not merely as research infrastructure but as strategic platforms integrating education,science,and talent development into a cohesive ecosystem.By optimizing organizational structures,improving long-term evaluation systems,and enhancing openness and collaboration,universities can build integrated ecosystems that simultaneously advance national scientific objectives and educational innovation.These findings offer practical insights for other universities seeking to leverage large-scale scientific facilities for synergistic development,ultimately supporting China's pursuit of high-level scientific self-reliance and educational modernization.
吴坚;邱爱慈;李兴文;臧中华
西安交通大学 电气工程学院,陕西 西安 710049西安交通大学 电气工程学院,陕西 西安 710049西安交通大学 电气工程学院,陕西 西安 710049西安交通大学 大科学装置项目建设办公室,陕西 西安 710049
社会科学
大科学装置教育、科技、人才一体发展建设管理
large-scale scientific facilitiesintegrated development of education,science,and talentconstruction and management
《实验技术与管理》 2026 (4)
275-281,7
陕西省教师发展研究计划专项项目(2023JSQ010)
评论