Previous theoretical work on plasma contactors as current collectors has fallen into two categories: collisionless double layer theory (describing space charge limited contactor clouds) and collisional quasineutral theory. Ground based experiments at low current are well explained by double layer theory, but this theory does not scale well to power generation by electrodynamic tethers in space, since very high anode potentials are needed to draw a substantial ambient electron current across the magnetic field in the absence of collisions (or effective collisions due to turbulence). Isotropic quasineutral models of contactor clouds, extending over a region where the effective collision frequency upsilon sub e exceeds the electron cyclotron frequency omega sub ce, have low anode potentials, but would collect very little ambient electron current, much less than the emitted ion current. A new model is presented, for an anisotropic contactor cloud oriented along the magnetic field, with upsilon sub e less than omega sub ce. The electron motion along the magnetic field is nearly collisionless, forming double layers in that direction, while across the magnetic field the electrons diffuse collisionally and the potential profile is determined by quasineutrality. Using a simplified expression for upsilon sub e due to ion acoustic turbulence, an analytic solution has been found for this model, which should be applicable to current collection in space. The anode potential is low and the collected ambient electron current can be several times the emitted ion current.
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机译:先前关于等离子接触器作为集电器的理论研究分为两类:无碰撞双层理论(描述空间电荷受限的接触器云)和碰撞准中性理论。双层理论很好地解释了低电流下的地面实验,但是该理论不能很好地扩展空间电动势链的发电能力,因为需要非常高的阳极电势才能在磁场中产生相当大的环境电子电流。没有碰撞(或由于湍流引起的有效碰撞)。接触器云的各向同性准中性模型延伸到有效碰撞频率upsilon sub e超过电子回旋加速器ωωce ce的区域,阳极电位低,但收集的环境电子电流很小,远小于发射的离子电流。针对沿磁场定向的各向异性接触器云,提出了一种新模型,其upsilon sub e小于omega subce。沿着磁场的电子运动几乎是无碰撞的,在该方向上形成了双层,而在磁场中,电子碰撞地扩散,而电位分布则由准中性确定。使用由于离子声湍流引起的upsilon sub e的简化表达式,已经找到了该模型的解析解,该解析解应适用于空间中的电流收集。阳极电位低,收集的环境电子电流可以是发射离子电流的几倍。
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