In ongoing experiments at the Plasma Liner Experiment (PLX) facility at Los Alamos National Laboratory, two high Mach number plasma jets, composed of gases such as H and Ar, will be collided. We describe numerical simulations using particle-in-cell (PIC) and hybrid-PIC methods using the code Lsp. Using expected experimental plasma conditions (n ∼ 1014–1016 cm−3) large scale transport simulations demonstrate that the jets are essentially collisionless at the merge point. In smaller-scale 1D and 2D simulations we show that collisionless shocks are generated by the merging jets when immersed in applied magnetic fields (B ∼ 0.1–1 T). Unmagnetized collisionless shocks are not found in simulations at the expected jet velocities (10–100 km/s). Considerably higher velocities are required to see this effect. The orientation of the magnetic fields and the axial and transverse gradients of the jets are shown to a have strong
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机译:在Los Alamos National实验室的等离子衬垫实验(PLX)设施的持续实验中,将碰撞由诸如H和AR等气体组成的两种高马赫数等离子喷气机。我们使用代码LSP描述使用粒子内(PIC)和Hybrid-PIC方法的数值模拟。使用预期的实验血浆条件(n〜10 14 -10 16 cm -3 )大规模传输模拟表明喷射器基本上是碰撞合并点。在较小的1D和2D模拟中,我们表明,在浸入施加的磁场(B〜0.1-1T)中,通过合并喷气机产生碰撞冲击。在预期的喷射速度(10-100 km / s)的模拟中找不到未达到的碰撞冲击。需要相当高的速度来看这种效果。磁场的取向和喷射器的轴向和横向梯度显示为具有强大的
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