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ELI将是世界上第一个致力于研究在极端相对论强度条件下物质与激光作用的大型基础设施,可在前所未有的强度水平下开展激光与物质相互作用研究。将用于探索阿秒-仄秒尺度的超快现象,并将开创激光与物质相互作用的新时代:超相对论领域,乃至其中的非线性量子电动力学的范畴,可以从真空中产生真空极化和基本粒子。ELI的科学使命是从原子到真空状态下对物质结构进行全面研究。ELI的建立将产生原子核物理革命。同时,它还产生一系列新技术,产生相对论性的微电子。ELI也具有广泛的社会效益,如在医学方面可提供新的放射成像技术和强子治疗方法。ELI对材料科学的发展也将有重要贡献。
ELI will be the first large infrastructure in the world dedicated to the study of matter and laser interaction under extreme relativistic intensities and will study laser-matter interactions at an unprecedented level of intensity. Will be used to explore the ultrasensical phenomena of the second-second sec- ondary scale and to create a new era of interaction between matter and matter: the field of super-relativity, and indeed the area of nonlinear quantum electrodynamics in which vacuum-induced polarization And basic particles. ELI’s scientific mission is to conduct a comprehensive study of the physical structure from atom to vacuum. The establishment of ELI will produce nuclear physics revolution. At the same time, it produces a series of new technologies that produce relativistic microelectronics. ELI also has a wide range of social benefits, such as providing new radiological imaging techniques and hadronic treatments in medicine. ELI will also make an important contribution to the development of materials science.