A potential lag between the open solar magnetic source flux and solar EUV and X-ray emissions as measured by the Earth's ionosphere during total solar eclipses

C J Davis,S A Bell,A W V Poole,L A Mckinnell,R Stamper,P Wilkinson

doi:10.5194/angeo-27-2449-2009

C J Davis, S A Bell + Show 4 more

Open Access

https://doi.org/10.5194/angeo-27-2449-2009

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Abstract

Abstract. Measurements of the ionospheric E-region during total solar eclipses have been used to provide information about the evolution of the solar magnetic field and EUV and X-ray emissions from the solar corona and chromosphere. By measuring levels of ionisation during an eclipse and comparing these measurements with an estimate of the unperturbed ionisation levels (such as those made during a control day, where available) it is possible to estimate the percentage of ionising radiation being emitted by the solar corona and chromosphere. Previously unpublished data from the two eclipses presented here are particularly valuable as they provide information that supplements the data published to date. The eclipse of 23 October 1976 over Australia provides information in a data gap that would otherwise have spanned the years 1966 to 1991. The eclipse of 4 December 2002 over Southern Africa is important as it extends the published sequence of measurements. Comparing measurements from eclipses between 1932 and 2002 with the solar magnetic source flux reveals that changes in the solar EUV and X-ray flux lag the open source flux measurements by approximately 1.5 years. We suggest that this unexpected result comes about from changes to the relative size of the limb corona between eclipses, with the lag representing the time taken to populate the coronal field with plasma hot enough to emit the EUV and X-rays ionising our atmosphere.

Highlights

Measurements of EUV and X-ray emissions from the solar corona and chromosphere as measured by the response of the Earth’s ionosphere during total solar eclipses have been presented in a previous publication (Davis et al, 2001)
By measuring the variation of electron concentration in the Earth’s ionospheric E-region during an eclipse and comparing these measurements with similar unperturbed ionisation levels it is possible to estimate the fraction of ionising radiation, being emitted by the solar corona and chromosphere dNE/dt + αNE2 = dNC /dt + αNC2 (1)
While the various estimates of the offset between the eclipse measurements and the source flux may differ in value and significance, they are consistent in indicating that the coronal emission intensity appears to lag the evolution of the solar coronal field and this has interesting implications for the evolution of the solar corona

Summary

Introduction

Measurements of EUV and X-ray emissions from the solar corona and chromosphere as measured by the response of the Earth’s ionosphere during total solar eclipses have been presented in a previous publication (Davis et al, 2001). For each lag in the range −5 to +5 years, coronal source flux values at the times of the eclipse observations were estimated by interpolation.

Results

Conclusion