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Whole atmosphere-ionosphere data assimilation and ensemble forecasting system (2023)

Matsuo, T. ; Hsu, C. ; Cantrall, C. ; [et al.]

In: XXVIII General Assembly of the International Union of Geodesy and Geophysics (IUGG)

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Publication Date: 2023-07-10

Description: Accurate forecasting of the ionosphere-thermosphere conditions is critical to radio communication, navigation, positioning, and satellite tracking. Located at the intersection between geospace and the Earth’s atmosphere, the ionosphere-thermosphere is exposed to drivers from both space and terrestrial weather that operate over a wide range of spatial and temporal scales. With an increased availability of geospace data from recent missions such as NASA GOLD and NASA ICON as well as COSMIC-II, the use of a single seamless system, extending from the ground to geospace, to assimilate observations from both Earth and geospace observing systems is becoming a real possibility. This paper will report on recent progress with research efforts to develop a capability to assimilate geospace satellite data into a coupled whole atmosphere-ionosphere-plasmasphere model as an integral part of the NOAA National Weather Service’s operational ensemble forecasting and data assimilation systems.

Language: English

Type: info:eu-repo/semantics/conferenceObject

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What Erodes the Plasmasphere so Severely? ~A Comparative study of ring current fluxes in two moderate geomagnetic storms~ (2023)

Obana, Y. ; Yoshikawa, A. ; Maruyama, N. ; [et al.]

In: XXVIII General Assembly of the International Union of Geodesy and Geophysics (IUGG)

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Publication Date: 2023-07-03

Description: Using the plasma instruments (LEPi, LEPe, MEPi and MEPe) onboard the Arase satellite, we can comprehensively investigate the fluxes of electrons and ions with different energies. Also, the in-situ electron density can be estimated by using the upper hybrid resonance frequencies detected from the plasma wave spectrum. The geomagnetic storm that commenced on 8 September 2017 has a Dst minimum of -147nT and appears to be a medium-sized magnetic storm at first glance, but it is known that it was a peculiar magnetic storm in various ways. For example, it is an extreme erosion of the plasmasphere to around L=1.5, and a strong SAPS generation. Our previous research suggested that this extreme erosion of the plasmasphere was the result of a convective electric field that continued to penetrate into the magnetic equatorial region for more than 6 hours, however, the reason for the continuation of the convection field was unclear. We therefore compare the evolution of ring current particles during this peculiar magnetic storm to the magnetic storm which commenced on 25 August 2018, which has a similar Dst minimum (-175nT) and erode plasmasphere to around L=2.5.

Language: English

Type: info:eu-repo/semantics/conferenceObject

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