9CaKrnQhunH作者:tech.huanqiu.comgallery充满科幻味道!世界最前沿实验室究竟长啥样?/e3pmh164r/e3pn6fo081467338460000责编:陶文冬146733846000011["9CaKrnQhunn","9CaKrnQhumJ","9CaKrnQhult","9CaKrnQhul3","9CaKrnQhuka","9CaKrnQhujU"]{"gallery":{"members":[{"desc":" 科研是一项非常枯燥的工作,离不开常年累月的实验、无尽的公式和理论,但在我们这些外人看来,很多前沿科学领域都充满了科幻电影的味道。实验室里各种高能的“大玩具”、密集的线缆和神秘的光线,一定程度上也满足了人们对科幻的幻想。\r\n \r\n","url":"\/\/himg2.huanqiucdn.cn\/attachment2010\/2016\/0701\/20160701100341496.jpg"},{"desc":"美国伯克利国家实验室的先进光源ALS项目,它是世界上紫外线和软X射线束流最亮的光源\r\n","url":"\/\/himg2.huanqiucdn.cn\/attachment2010\/2016\/0701\/20160701100341562.jpg"},{"desc":"欧洲同步辐射光源ESRF真空波荡器\r\n","url":"\/\/himg2.huanqiucdn.cn\/attachment2010\/2016\/0701\/20160701100341886.jpg"},{"desc":"美国斯坦福大学软X射线装置\r\n","url":"\/\/himg2.huanqiucdn.cn\/attachment2010\/2016\/0701\/20160701100341219.jpg"},{"desc":"科学家在利用加拿大光源(CLS)的REIXS(X射线散射)研究科研样本\r\n","url":"\/\/himg2.huanqiucdn.cn\/attachment2010\/2016\/0701\/20160701100341801.jpg"},{"desc":" 美国劳伦斯利弗莫尔国家实验室的国家点火装置,这一套装置最终目的是让192台激光装置在十亿分之一秒内同时发射并击中铅笔头大小的燃料球。\r\n","url":"\/\/himg2.huanqiucdn.cn\/attachment2010\/2016\/0701\/20160701100341170.jpg"},{"desc":" 美国洛斯阿拉莫斯国家实验室,该实验室现在的主要任务是利用计算机进行模拟核试验和对国家核武库的管理。通过利用实验设施可以对核爆进行完全的模拟而不需要真正地引爆核弹。\r\n","url":"\/\/himg2.huanqiucdn.cn\/attachment2010\/2016\/0701\/20160701100342320.jpg"},{"desc":" 欧洲核子研究中心大型强子对撞机上的超环面仪器(ATLAS)行的线缆。该机构的主要功能是为高能物理学研究的需要,提供粒子加速器和其它基础设施。\r\n","url":"\/\/himg2.huanqiucdn.cn\/attachment2010\/2016\/0701\/20160701100342236.jpg"},{"desc":"美国爱达荷国家实验室,这里主要研究各种核材料\r\n","url":"\/\/himg2.huanqiucdn.cn\/attachment2010\/2016\/0701\/20160701100342238.jpg"},{"desc":"阿德菲实验中心里的红外激光实验\r\n","url":"\/\/himg2.huanqiucdn.cn\/attachment2010\/2016\/0701\/20160701100342607.jpg"},{"desc":"北卡罗来纳电子显微镜\r\n","url":"\/\/himg2.huanqiucdn.cn\/attachment2010\/2016\/0701\/20160701100342590.jpg"},{"desc":" 美国布鲁克海文国家实验室的相对论重离子对撞机。在这里科学家首次观察到了新型反物质反氦-4,这是迄今科学家观察到的最重反物质。\r\n","url":"\/\/himg2.huanqiucdn.cn\/attachment2010\/2016\/0701\/20160701100342988.jpg"},{"desc":" 桑迪亚国家实验室Z机器,该实验室主要研究的热核反应,该实验室的加速器在运行过程中会产生大量闪电状电弧。\r\n","url":"\/\/himg2.huanqiucdn.cn\/attachment2010\/2016\/0701\/20160701100342854.jpg"},{"desc":"费米国立加速器实验室MINOS(主注入器中微子震荡寻找)实验中的一部分仪器。\r\n","url":"\/\/himg2.huanqiucdn.cn\/attachment2010\/2016\/0701\/20160701100342808.jpg"},{"desc":"杰斐逊实验室低温恒温组超导谐振器\r\n","url":"\/\/himg2.huanqiucdn.cn\/attachment2010\/2016\/0701\/20160701100342440.jpg"},{"desc":"澳大利亚特高压实验室\r\n","url":"\/\/himg2.huanqiucdn.cn\/attachment2010\/2016\/0701\/20160701100342385.jpg"},{"desc":"斯坦福大学利用激光对晶体进行测试\r\n","url":"\/\/himg2.huanqiucdn.cn\/attachment2010\/2016\/0701\/20160701100342900.jpg"},{"desc":"中科院物理所微加工实验室电子束曝光系统\r\n","url":"\/\/himg2.huanqiucdn.cn\/attachment2010\/2016\/0701\/20160701100342420.jpg"},{"desc":"中科院物理所极端条件实验室高频电磁感应炉\r\n","url":"\/\/himg2.huanqiucdn.cn\/attachment2010\/2016\/0701\/20160701100342606.jpg"}]}}//himg2.huanqiucdn.cn/attachment2010/2016/0701/10/03/20160701100312584.jpg