等离子体宇宙中星系间电流的平衡

Proceedings of 1994 IEEE 21st International Conference on Plasma Sciences (ICOPS) Pub Date : 1994-06-06 DOI:10.1109/PLASMA.1994.588730

B. E. Meierovich

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引用次数: 0

摘要

研究宇宙结构的等离子体宇宙理论认为，空间充满了一个可以经受捏压的电流网络。这种电流的平衡结构与实验室掐痕的结构处理方式相同。对于银河系来说，不同之处在于，粒子之间的引力相互作用必须包括在分析中。简单的计算表明，在平衡状态下，磁压缩和引力压缩的能量必须由静电斥力的能量和电荷的动能精确补偿。如果引力能比磁能小得多，我们就得到了相对论掐点系统的能量平衡。在非相对论极限下，这种平衡被简化为众所周知的班纳特关系。

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Equilibrium Of Intergalactic Currents In The Plasma Universe

The plasma universe approach to the structure of the universe considers space to be filled with a network of currents which can undergo pinch compression. The equilibrium structures of such currents are treated in the same way as the structure of laboratory pinches. The difference, for the galactic case, is that gravitational interaction forces between the particles must be included into the analysis. Straightforward calculation shows that in equilibrium the energy of magnetic compression and gravitational compression must be exactly compensated by the energy of electrostatic repultion and kinetic energies of the charges. If gravitational energy is much smaller than the magnetic energy, we get balance of energies for relativistic pinch systems. In nonrelativistic limit the balance is reduced to the well known Bennet relation.

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Proceedings of 1994 IEEE 21st International Conference on Plasma Sciences (ICOPS)

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