Recently NAno-Plasmonic, Laser Inertial Fusion Experiments (NAPLIFE) were proposed, as an improved way to achieve laser driven fusion. The improvement is the combination of two basic research discoveries: (i) the possibility of detonations on space-time hyper-surfaces with time-like normal (i.e. simultaneous detonation in a whole volume) and (ii) to increase this volume to the whole target, by regulating the laser light absorption using nanoshells or nanorods as antennas. These principles can be realized in a one dimensional configuration, in the simplest way with two opposing laser beams as in particle colliders. Such, opposing laser beam experiments were also performed recently. Here we study the consequences of the Laser Wake Field Acceleration (LWFA) if we experience it in a colliding laser beam set-up. These studies can be applied to laser driven fusion, but also to other rapid phase transition, combustion, or ignition studies in other materials.

最近，提出了纳米-激光激光惯性融合实验（NAPLIFE），作为实现激光驱动融合的一种改进方法。改进是两个基础研究发现的结合：（i）时空超表面上具有类似时间法线的爆轰的可能性（即，整个体积同时爆炸），以及（ii）将该体积扩大到整个通过使用纳米壳或纳米棒作为天线来调节激光的吸收来达到目标​​。这些原理可以在一维配置中以与粒子对撞机中的两个相对的激光束最简单的方式实现。最近也进行了这种相反的激光束实验。在这里，如果我们在碰撞的激光束设置中遇到激光唤醒场加速（LWFA）的后果，我们将对其进行研究。