AKR bursts and substorm field line excitation

Physics and Chemistry of the Earth, Part C: Solar, Terrestrial & Planetary Science Pub Date : 2001-01-01 DOI:10.1016/S1464-1917(00)00101-X

H. de Feraudy , J. Hanasz , R. Schreiber , G. Parks , M. Brittnacher , S. Perraut , J.A. Sauvaud , F. Lefeuvre , M. Mogilevsky

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引用次数: 8

Abstract

A new manifestation of the Auroral Kilometric Radiation is put in evidence through the observations of the POLRAD wave experiment of the INTERBALL mission, the Wide Band Bursts of the AKR, or WBB AKR. It consists in bursts of radiation with a very broad bandwidth, typically 100 – 800 kHz. The whole frequency range is excited at once or in less than few minutes. This corresponds to the excitation of long segments of auroral field lines in a time often less that one minute. The sources of the emission are stretched along the field lines between altitudes ranging from 2000 to 20000 km. The relationship of these bursts to the development of auroral bulges, in the UV spectral range, is shown by the comparison of the POLRAD wave observations and those of the UV imager of the POLAR mission. It is shown that these bursts are generated during fast expansion of the auroral bulge. An accurate timing of the burst events is made with the time evolution of the frequency integrated wave energy flux. It shows that the bursts have a rise time of few minutes which is followed by an exponential relaxation with a characteristic time of few tens of minutes. The source of the bursts first expands along the field lines then it shrinks during the relaxation phase. The bursts are triggered few minutes before the maximum intensity of the UV auroral bulge. It is also shown that the bursts actually consist of a large number of individual broad bandwidth elements, each, lasting less than few seconds.

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AKR爆发和亚暴场线激发

通过INTERBALL任务POLRAD波实验的观测，AKR的宽带爆发，或WBB AKR，证明了极光千米辐射的一种新表现。它由带宽非常宽的辐射爆发组成，通常为100 - 800千赫。整个频率范围在一次或不到几分钟内被激发。这相当于在不到一分钟的时间内激发长段的极光场线。发射源沿着海拔2000至20000公里之间的场线延伸。在紫外光谱范围内，这些爆发与极光凸起发展的关系通过POLRAD波观测和POLAR任务的紫外成像仪的比较来显示。结果表明，这些爆发是在极光膨胀的快速膨胀过程中产生的。利用频率积分波能量通量随时间的演化，对爆炸事件进行了精确定时。结果表明，脉冲的上升时间为几分钟，随后是一个特征时间为几十分钟的指数弛豫。爆发源首先沿着场线扩展，然后在弛豫阶段收缩。这些爆发是在紫外线极光膨胀达到最大强度前几分钟触发的。它还表明，脉冲实际上由大量单独的宽带宽元素组成，每个元素持续时间不到几秒钟。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Physics and Chemistry of the Earth, Part C: Solar, Terrestrial & Planetary Science

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