H. Davis, C. Vermare, T. Hughes, D. Moir, R. Olson, W. Wood
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引用次数: 0
摘要
DARHT第二轴(2 kA, 18.6 MeV, 2000 ns)的一个主要问题是,光束撞击从固体表面(例如,孔、隔膜、倾倒和目标)释放的离子或电离中性离子可能被束流势加速和捕获。这种正电荷会干扰光束。为了研究这一点,在DARHT第一轴上进行了实验。光束聚焦在一定直径范围内,通过各种材料制成的薄薄膜传输。随时间变化的光束径向轮廓在目标的下游测量。当电流密度较低时,下游的光束剖面如预期的那样是时不变的。在较高的电流密度下,脉冲过程中下游光束半径发生变化,引起横向不稳定。
Intense electron beam disruption due to ion release from surfaces
A major concern for the DARHT second axis (2 kA, 18.6 MeV, 2000 ns) is that ions or ionized neutrals released from solid surfaces (e.g., apertures, septums, dumps, and targets) by beam impact can be accelerated and trapped by the beam potential. This positive charge could disrupt the beam. To study this, experiments were performed on the DARHT first axis. The beam, focused to a range of diameters, is transmitted through thin foils made of various materials. The time-dependent beam radial profile is measured downstream of the target. For low current density, the downstream-beam profile is time invariant as expected. At higher current density, the downstream-beam radius changes during the pulse followed by the transverse instability.
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