Journal of Experimental and Theoretical Physics ( IF 1.1 ) Pub Date : 2020-12-02 , DOI: 10.1134/s1063776120090101 V. I. Vysotskii , A. A. Kornilova , M. V. Vysotskyy
Abstract
The quantitative characteristics of the first successful experiments on the formation of a fusion plasma have been discussed. It has been shown that the generation of neutrons detected in these experiments is not directly due to fusion processes in a laser plasma with a comparatively low temperature. Alternative mechanisms of stimulation of a fusion reaction have been considered. It has been shown that the most probable mechanism of neutron generation is attributed to the processes of formation of correlated coherent states, which are generated by a shock wave in the undestroyed part of the target lattice or at the motion of slow ions emitted from the laser plasma in the target. It is reasonable to repeat these experiments, where the effective generation of not only neutrons but also other products of nuclear fusion should be expected.
中文翻译:
首次激光聚变实验中中子和其他粒子产生的特征和机理
摘要
讨论了首次成功的融合等离子体形成实验的定量特性。已经表明,在这些实验中检测到的中子的产生并非直接归因于温度相对较低的激光等离子体中的聚变过程。已经考虑了刺激融合反应的替代机制。已经表明,中子产生的最可能机理归因于相关相干态的形成过程,这些相干态是由目标晶格的未破坏部分中的激波或激光发出的慢速离子运动产生的靶中的血浆。重复这些实验是合理的,在这种实验中,不仅应该期望中子的有效产生,而且还希望产生核聚变的其他产物。