摘要
利用计算机模拟研究了非均匀电场产生的赤道扩展F的时空演变。非均匀电场能在赤道电离层F区底部触发Rayleigh-Taylor不稳定性,导致等离子体泡形态。计算中非均匀电场的幅度取为0.25-1.00mV/m,所产生的等离子体泡在2000s以内就能穿过F峰达到540km的高度。所得结果阐明了非均匀电场在赤道扩展F中的作用,指出了产生等离子体泡一种可能的扰动源。由于E区和F区电场是相互影响的,从而揭示了E区和F区扰动的相互联系。
We have used a computer simulation to study spatial and temporal evolution of equatorial spread F irregularities generated by irregular electric fields.It is shown that irregular electric fields can initiate the Rayleigh-Taylor instability in the bottomside F region and result in topside plasma bubbles.The amplitude of the electric fields used in the simulations is 0.25-1.00 mV/m, and resulting plasma bubbles penetrate the F peak and reach the altitude of 540 km within 2000 s.It is found that irregular electric fields can play an important role in equatorial spread F and are a possible perturbation source for generation of plasma bubbles.Since the E region electric fields can map upto the F region along the magnetic field lines,the numerical results reveal possible interrelation between E and F region perturbations.
出处
《地球物理学报》
SCIE
EI
CSCD
北大核心
1996年第3期296-305,共10页
Chinese Journal of Geophysics
基金
国家自然科学基金
关键词
赤道扩展
数值模拟
电场
时空演变
电离层
Equatorial spread F, Rayleigh-Taylor instability, Plasma bubbles, Irregular electric field, Numerical simulation.
