Pulsating aurora is frequently observed in the evening and morning sector auroral oval. While the precipitating electrons span a wide range of energies, there is increasing evidence that the shape of pulsating auroral patches is controlled by structures in near-equatorial cold plasma; these patches appear to move with convection, for example. Given the tremendous and rapidly increasing amount of auroral image data from which the velocity of these patches can be inferred, it is timely to develop and implement techniques for the automatic identification of pulsating auroral patch events in these data and for the automatic determination of the velocity of individual patches from that data. As a first step towards this, we have implemented an automatic technique for determining patch velocities from sequences of images from the Time History of Events and Macroscale Interactions during Substorms (THEMIS) all-sky imager (ASI) and applied it to many pulsating aurora events. Here we demonstrate the use of this technique and present the initial results, including a comparison between ewograms (easta??west keograms) and time series of patch position as determined by the algorithm. We discuss the implications of this technique for remote sensing convection in the inner magnetosphere.
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机译:经常在傍晚和早晨扇形极光椭圆形中观察到脉动性极光。尽管沉淀的电子具有广泛的能量范围,但越来越多的证据表明,脉动的极光斑块的形状受近赤道冷等离子体中的结构控制;例如,这些斑块似乎随着对流运动。鉴于可以从中推断出这些斑块的速度的大量且迅速增加的极光图像数据,应及时开发和实施用于自动识别这些数据中脉动性极光斑块事件并自动确定速度的技术来自该数据的单个补丁。迈出第一步,我们已经实现了一种自动技术,该技术可以根据子风暴(THEMIS)全天空成像仪(ASI)的事件时间和宏观相互作用的时间历史图像序列确定斑块速度,并将其应用于许多脉动极光事件。在这里,我们演示了这种技术的使用,并给出了初步结果,包括通过算法确定的ewograms(easta ?? west keograms)和补丁位置时间序列之间的比较。我们讨论了该技术对内磁层遥感对流的影响。
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