Evaluating the ionospheric mass source for Jupiter's magnetosphere:An ionospheric outflow model for the auroral regions

Martin, Carley and Ray, Licia C and Constable, DA and Southwood, David and Lorch, Chris and Felici, M. (2020) Evaluating the ionospheric mass source for Jupiter's magnetosphere:An ionospheric outflow model for the auroral regions. Journal of Geophysical Research: Space Physics, 125 (7). ISSN 2169-9402

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Abstract

Ionospheric outflow is the flow of plasma initiated by a loss of equilibrium along a magnetic field line, which induces an ambipolar electric field due to the separation of electrons and ions in a gravitational field and other mass‐dependent sources. We have developed an ionospheric outflow model using the transport equations to determine the number of particles that flow into the outer magnetosphere of Jupiter. The model ranges from 1,400 km in altitude above the 1 bar level to 2.5 RJ along the magnetic field line and considers H+ and H3+ as the main ion constituents. Previously, only pressure gradients and gravitational forces were considered in modeling polar wind. However, at Jupiter we need to evaluate the effect of field‐aligned currents present in the auroral regions due to the breakdown of corotation in the magnetosphere, along with the centrifugal force exerted on the particles due to the fast planetary rotation rate. The total number flux from both hemispheres is found to be 1.3–1.8 × 1028 s−1 comparable in total number flux to the Io plasma source. The mass flux is lower due to the difference in ion species. This influx of protons from the ionosphere into the inner and middle magnetosphere needs to be included in future assessments of global flux tube dynamics and composition of the magnetosphere system.

Item Type:
Journal Article
Journal or Publication Title:
Journal of Geophysical Research: Space Physics
ID Code:
145416
Deposited By:
Deposited On:
28 Jul 2020 12:20
Refereed?:
Yes
Published?:
Published
Last Modified:
22 Sep 2020 05:06