Empirically modelled Pc3 activity based on solar wind parameters

Heilig, B. and Lotz, S. I. and Verő, J. and Sutcliffe, P. and Reda, J. and Pajunpää, G. and Raita, T. (2010) Empirically modelled Pc3 activity based on solar wind parameters. Annales Geophysicae, 28 (9). pp. 1703-1722. ISSN 0992-7689

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Abstract

It is known that under certain solar wind (SW)/interplanetary magnetic field (IMF) conditions (e.g. high SW speed, low cone angle) the occurrence of ground-level Pc3–4 pulsations is more likely. In this paper we demonstrate that in the event of anomalously low SW particle density, Pc3 activity is extremely low regardless of otherwise favourable SW speed and cone angle. We re-investigate the SW control of Pc3 pulsation activity through a statistical analysis and two empirical models with emphasis on the influence of SW density on Pc3 activity. We utilise SW and IMF measurements from the OMNI project and ground-based magnetometer measurements from the MM100 array to relate SW and IMF measurements to the occurrence of Pc3 activity. Multiple linear regression and artificial neural network models are used in iterative processes in order to identify sets of SW-based input parameters, which optimally reproduce a set of Pc3 activity data. The inclusion of SW density in the parameter set significantly improves the models. Not only the density itself, but other density related parameters, such as the dynamic pressure of the SW, or the standoff distance of the magnetopause work equally well in the model. The disappearance of Pc3s during low-density events can have at least four reasons according to the existing upstream wave theory: 1. Pausing the ion-cyclotron resonance that generates the upstream ultra low frequency waves in the absence of protons, 2. Weakening of the bow shock that implies less efficient reflection, 3. The SW becomes sub-Alfvénic and hence it is not able to sweep back the waves propagating upstream with the Alfvén-speed, and 4. The increase of the standoff distance of the magnetopause (and of the bow shock). Although the models cannot account for the lack of Pc3s during intervals when the SW density is extremely low, the resulting sets of optimal model inputs support the generation of mid latitude Pc3 activity predominantly through upstream waves.

Item Type:Article
Additional Information:Annales Geophysicae is an Open Access Journal of the European Geosciences Union
Uncontrolled Keywords:magnetospheric physics; MHD waves and instabilities; solar wind-magnetosphere interactions
Subjects:Q Science > QC Physics
Divisions:Faculty > Faculty of Science > Physics & Electronics
ID Code:1778
Deposited By: Mrs Eileen Shepherd
Deposited On:25 Oct 2010 14:03
Last Modified:06 Jan 2012 16:21
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