本文综合评述了激光等离子体相互作用研究在几个扩展领域内所取得的结果和等离子体理论的新发展,其中包括激光等离子体相互作用非线性力的普适表示式、碰撞与量子碰撞的重要作用.以及非均匀等离子体中动力学内电场和静电双层的发现等。给出了腔子与等离子体界面的合成表面张力(由快速电子放射而产生)抑制Raleigh-Taylor不稳的结果。指出,金属离子晶格中的简并电子气亦有同样的情形:在静电双层未建立之前,电子总是试图逃逸具有费米能的离子晶格,表面张力与金属材料的实测值相符。这些能用来解释Marangoni流(电子在金属表面电子泳层中的流动)的驱动表面力.文章进一步计算了核中Hofstadter电荷的一个德拜长度的衰变,算出了被测核的表面能. In this paper, we summarize the results obtained in the field of laser plasma interaction in several expansion fields and the new development of plasma theory, including the universal expression of the nonlinear force of laser plasma interaction, the importance of collision and quantum collision As well as the discovery of non-uniform plasma kinetics in the electric field and electrostatic double layer. The results of the inhibition of Raleigh-Taylor instability are given for the synthetic surface tension at the cavity-plasma interface (due to rapid electron emission). Pointed out that the degenerate electron gas in the metal ion lattice has the same situation: before the electrostatic double layer is not established, the electron always tries to escape the ion lattice with Fermi energy, and the surface tension accords with the measured value of the metal material. These can be used to explain the driving surface forces of the Marangoni flow (electron flow in metal surface elec- trodes). The article further calculates the decay of a Debye length of the Hofstadter charge in the core and calculates the surface energy of the nucleus to be measured.