2010年,美国斯坦福直线加速器中心(SLAC)的研究人员在Nature Photonics杂志上发文[1],宣布世界上第一个硬X射线波段的自由电子激光装置正式投入使用.X射线激光给整个“X光科技”带来的影响,将不亚于上世纪可见光激光给光学带来的影响.上世纪初诞生的X光科技使大量科学实验深入到原子层次,为物理、化学、材料科学以及生命科学等领域的许多重大突破提供了实验基础.以X射线激光为基础的21世纪的X光科技,将在更广的范围、更深的层次、以更高的效率对相关学科的发展起更大 In 2010, researchers at the Stanford Linear Accelerator Center (SLAC) in the United States published a paper [1] in Nature Photonics announcing the world’s first hard X-ray free-electron laser device to go live. X-ray lasers give the entire “ X-ray technology, ”the impact will be no less than the last century, the impact of visible laser light to the optical technology was born at the beginning of the last century, a large number of scientific experiments deep into the atomic level, for physics, chemistry, materials science and Life sciences and many other major breakthroughs in the field to provide the experimental basis for the X-ray laser-based X-ray technology in the 21st century, will be more extensive, deeper level, with higher efficiency on the development of related disciplines Big