The heliospheric modulation of 3–10 MeV electrons: Modeling of changes in the solar wind speed in relation to perpendicular polar diffusion

You are here: Homepage > Search

The heliospheric modulation of 3–10 MeV electrons: Modeling of changes in the solar wind speed in relation to perpendicular polar diffusion

Moeketsi, D.M. / Potgieter, M.S. / Ferreira, S.E.S. / Heber, B. / Fichtner, H. / Henize, V.K.

AbstractThe discrepancy between cosmic ray model predictions representing solar minimum conditions in the heliosphere and the 3–10 MeV post-1998 electrons observations by the Kiel Electron Telescope (KET) onboard Ulysses suggests the need for consistent changes in model parameters with increasing solar activity. In order to reduce this discrepancy, an effort is made to model the KET observations realistically during periods of increased solar activity by applying an advanced three-dimensional, steady-state electron modulation model based on Parker’s transport equation including the Jovian electron source. Some elements of the diffusion tensor which were not previously emphasized are revisited. A new relation is also established between the latitudinal dependence of the solar wind speed and the perpendicular polar diffusion. Based on this relation, a transition of an average solar wind speed from solar minimum to solar maximum conditions, as observed on board the Ulysses spacecraft, is modeled on the concept of the time-evolution of large polar coronal holes. These changes are correlated to different scenarios of the enhancement of perpendicular polar diffusion. Effects of these scenarios are illustrated, as a series of steady-state solutions, on the computed 7 MeV Jovian and galactic electrons in comparison with 3–10 MeV electrons observed from the period 1998 to the end of 2003. It is shown that this approach improves compatibility with the KET observations but it also points to the need for a time-dependent electron modulation model to fully describe modulation during moderate to extreme solar maximum conditions.

Access

Check access

Check availability in my library

Order at Subito €

Export, share and cite

Document information

Title :

The heliospheric modulation of 3–10 MeV electrons: Modeling of changes in the solar wind speed in relation to perpendicular polar diffusion

Contributors:

Moeketsi, D.M. (author) / Potgieter, M.S. (author) / Ferreira, S.E.S. (author) / Heber, B. (author) / Fichtner, H. (author) / Henize, V.K. (author)

Published in:

Advances in Space Research ; 35 , 4 ; 597-604

Publication date :

2005-03-28

Size :

8 pages

ISSN :

0273-1177

DOI :

https://doi.org/10.1016/j.asr.2005.03.123

Type of media :

Article (Journal)

Type of material :

Electronic Resource

Language :

English

Keywords :

Interplanetary physics , Cosmic rays , Heliospheric modulation , Solar activity , Solar wind speed , Jovian electrons , Galactic electrons , Transport processes

Moeketsi, D. M. / Potgieter, M. S. / Ferreira, S. E. et al. | British Library Conference Proceedings | 2005

The heliospheric modulation of 3#821110 MeV electrons: Modeling of changes in the solar wind speed in relation to perpendicular polar diffusion

Moeketsi, D.M. | Online Contents | 2005

The Importance of Perpendicular Diffusion in the Heliospheric Modulation of Cosmic Ray Electrons

Potgieter, M.S. | Online Contents | 1999

The Importance of Perpendicular Diffusion in the Heliospheric Modulation of Cosmic Ray Electrons

Potgieter, M. S. / Ferreira, S. E. S. / International Council of Scientific Unions; Committee on Space Research; Scientific Commission D | British Library Conference Proceedings | 1999

The Heliospheric Modulation of Galactic Cosmic Rays: The Role of Perpendicular Diffusion Enhanced in the Polar Regions of the Heliosphere

Potgieter, M. S. / International Council of Scientific Unions; Committee on Space Research; Scientific Commission D | British Library Conference Proceedings | 1999

Access

Check access

Check availability in my library

Order at Subito €

Page navigation

Document information

Similar titles