DESY是世界领先的加速器中心之一。研究人员利用DESY的大型设施来探索各种微观世界,从微小基本粒子的相互作用和新型纳米材料的行为到对生命至关重要的生物分子过程。DESY开发和制造的加速器和探测器是独特的研究工具。这些设施产生世界上最强烈的X射线,加速粒子以记录能量,并为宇宙打开全新的窗口。
DESY进行多样化研究,主要集中在加速器、光子科学、粒子物理学和天体粒子物理学四个领域。在这里工作的科学家寻找构成世界的最小的物质构建块,开发创新的高科技材料,并为未来的药物寻找新的作用机制。作为德国最大的研究中心之一,DESY开展基础研究,创造新知识和新概念方法。这项研究是应对未来挑战的基础:能源供应、气候保护和医疗保健等问题需要长期思考、可持续解决方案和新技术。
DESY吸引了每年来自40多个国家的3000多名客座研究人员,为许多研究提供专业培训;DESY通过与工业界和企业界合作,推广有益于社会并鼓励创新的新技术。DESY致力于物质结构和功能的基础研究,为世界准备必要的知识库。中心对物质的基本关系、结构和功能进行顶级国际研究,试图建立解决社会、科学和经济面临的巨大而紧迫挑战所需的知识库,不断扩展光子科学、粒子和天体粒子物理学以及加速器物理学等研究领域的知识,从同步辐射源、X射线激光器、粒子加速器、探测器和天文台获得成果,并进行相关的研究和开发工作。
DESY is one of the world's leading accelerator centers. Researchers use DESY's large facilities to explore a variety of microscopic worlds, from the interactions of tiny elementary particles and the behavior of novel nanomaterials to biomolecular processes essential to life. The accelerators and detectors developed and manufactured by DESY are unique research tools. These facilities produce the world's most intense X-rays, accelerate particles to record energy and open whole new Windows on the universe.
DESY conducts diverse research in four areas, namely accelerator, photon science, particle physics and astroparticle physics. Scientists working here search for the smallest building blocks of matter that make up the world, develop innovative high-tech materials, and search for new mechanisms of action for future drugs. As one of the largest research centres in Germany, DESY conducts basic research, creating new knowledge and conceptual approaches. This research is the foundation for future challenges: issues such as energy supply, climate protection and healthcare require long-term thinking, sustainable solutions and new technologies.
DESY attracts more than 3,000 guest researchers from more than 40 countries each year, providing specialized training for many studies; DESY works with industry and business to promote new technologies that benefit society and encourage innovation. DESY is committed to fundamental research on the structure and function of matter, preparing the world with the necessary knowledge base. The Center conducts top-level international research on the fundamental relationships, structure and function of matter, seeks to build the knowledge base needed to address the enormous and pressing challenges facing society, science and the economy, and continues to expand its knowledge in research areas such as photonic science, particle and astroparticle physics, and accelerator physics. Obtain results from synchrotron radiation sources, X-ray lasers, particle accelerators, detectors and observatories, and carry out related research and development work.