基于小波分析的地磁甚低频脉动指数及其在高磁纬度地区甚低频脉动共轭对比研究中的应用

Translated title of the contribution: Wavelet-based ULF pulsation indices and their application to geomagnetically conjugate ULF pulsation studies at high latitudes

Zhonghua Xu, C. Robert Clauer, Michael D. Hartinger, Hyomin Kim, Daniel R. Weimer

Research output: Contribution to journalArticlepeer-review

Abstract

Geomagnetic Ultra Low Frequency (ULF) are terrestrial manifestations of the propagation of very low frequency magnetic fluid waves in the magnetosphere, and it is critical to develop near real-time space weather products to monitor these geomagnetic disturbances. A wavelet-based index is described in this paper and applied to study geomagnetic ULF pulsations observed in Antarctica and their magnetically conjugate locations in West Greenland. Results showed that (1) the index is effective for identification of pulsation events in the Pc4–Pc5 frequency range, including transient events, and measures important characteristics of ULF pulsations in both the temporal and frequency domains. (2) Comparison between conjugate locations reveals the similarities and differences between ULF pulsations in northern and southern hemispheres during solstice conditions, when the largest asymmetries are expected. Results also showed that the geomagnetic pulsations at conjugate locations respond differently according to the Interplanetary Magnetic Field condition, magnetic field topology, magnetic latitude of the observation, and other conditions. The actual magnetospheric and ionospheric configurations and driving conditions in the case need to be further studied.

Translated title of the contributionWavelet-based ULF pulsation indices and their application to geomagnetically conjugate ULF pulsation studies at high latitudes
Original languageChinese (Traditional)
Pages (from-to)37-51
Number of pages15
JournalChinese Journal of Polar Research
Volume36
Issue number1
DOIs
StatePublished - Mar 30 2024

All Science Journal Classification (ASJC) codes

  • Ecology
  • Geology
  • Atmospheric Science

Keywords

  • geomagnetic disturbance
  • geomagnetically conjugate
  • Ultra Low Frequency (ULF) wave

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