Abstract
To date, the inner boundary conditions for solar wind models are either
directly or indirectly based on magnetic field extrapolation models of
the photosphere. Furthermore, between the photosphere and Earth, there
are no other direct empirical constraints on models. New breakthroughs
in coronal rotation tomography, applied to coronagraph observations,
allow maps of the coronal electron density to be made in the
heliocentric height range 4-12 solar radii (Rs). We show that these maps
(i) give a new empirical boundary condition for solar wind structure at
a height where the coronal magnetic field has become radial, thus
avoiding the need to model the complex inner coronal magnetic field, and
(ii) give accurate rotation rates for the corona, of crucial importance
to the accuracy of solar wind models and forecasts.
Original language | English |
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DOIs | |
Publication status | Published - 01 Apr 2021 |
Event | EGU General Assembly 2021: Gather Online - Online, Vienna, Austria Duration: 19 Apr 2021 → 30 May 2021 https://www.egu21.eu |
Conference
Conference | EGU General Assembly 2021 |
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Abbreviated title | vEGU21 |
Country/Territory | Austria |
City | Vienna |
Period | 19 Apr 2021 → 30 May 2021 |
Internet address |