The high pressure plasma is created when transient, intensity laser pulse impinges on a black ablative layer painted on the surface of the target material.
激光微冲击成形就是利用脉冲激光产生的高压等离子体的冲击力效应,使超薄板材产生塑性变形的新技术。 该技术在制造微机电系统零件方面有巨大的潜力。
参考来源 - 超薄板材激光微冲击成形的变形与破坏研究·2,447,543篇论文数据,部分数据来源于NoteExpress
利用可消融材料制成毛细管,在其两端阳极与中空阴极间进行大功率放电,形成高压等离子体源。
The plasma produced in ablative capillaries by high power discharges between an anode and a hollow cathode can be used as sources for electrothermal/electrothermal chemical launchers.
激光微冲击成形就是利用脉冲激光产生的高压等离子体的冲击力效应,使超薄板材产生塑性变形的新技术。
The high pressure plasma is created when transient, intensity laser pulse impinges on a black ablative layer painted on the surface of the target material.
因此he2 +能在高压的氦气等离子体中,被观察到,而不是中性的。
And He2 plus is observed in helium plasmas at high pressure, He2 but not neutral He2.
And He2 plus is observed in helium plasmas at high pressure, He2 but not neutral He2.
因此He2+能在高压的氦气等离子体中,被观察到,而不是中性的。
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