The NIF facility commissioned the Advanced Radiographic Capability (ARC) short-pulse laser system in 2015. The ARC high-energy backlighting capability is required for the Stockpile …

To become one of the highest-energy short-pulse lasers in the world, ARC was not only built on the shoulders of NIF, but was also constructed by sharing components at the heart of NIF. …

NIF, a laser the size of three football fields, creates conditions more extreme than those present at the center of the Sun. To build the largest and most energetic laser in world, capable of …

The Advanced Radiographic Capability (ARC) laser resides inside the giant laser system of the National Ignition Facility. An extremely large and powerful short-pulse laser, ARC operates in …

北京时间2022年12月13日23点，美国劳伦斯利弗莫尔国家实验室宣布，该机构的国家点火装置（NIF）首次成功实现了能量输出大于激光能量输入的可控核聚变反应。 据悉，驱动核聚变的 …

The advanced radiographic capability (ARC) laser system, part of the National Ignition Facility (NIF) at Lawrence Livermore National Laboratory, is a short-pulse laser capability integrated …

To generate these x-rays, in the summer of 2014, NIF will be deploying the Advanced Radiographic Capability (ARC) which is designed to generate precise, high-energy short …

NIF-ARC 激光器提供的多 kJ 能量可用于射线照相的高亮度质子源，从而在 HED 科学中实现广泛的应用。 在这个演示中，进行了物理包的质子射线照相，这项工作详细介绍了 TNSA 质子探 …

2006年6月21日 · We present the status of plans to commission a short-pulse, quad of beams on the National Ignition Facility (NIF), capable of generating > 10 kJ of energy in 10 ps. These …

We are converting a quad of NIF beamlines into eight, short-pulse (1-50 ps), petawatt-class beams for advanced radiography and fast ignition experiments. This paper describes progress …