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Occurrence Rate of Equatorial Noise Emissions as a Function of the McIlwain's Parameter

Publication at Faculty of Mathematics and Physics |
2012

Abstract

We report results of a statistical analysis of equatorial noise (EN) emissions based on the data set collected by the four Cluster spacecraft between January 2001 and December 2010. We have investigated a large range of the McIlwain's parameter from L 1 to L 11 thanks to the change of orbital parameters of the Cluster mission.

We have processed data from the STAFF-SA instruments which analyze measurements of electric and magnetic field fluctuations onboard and provide us with hermitian spectral matrices. We have used linear polarization of magnetic field fluctuations as a selection criterion.

Propagation in the vicinity of the geomagnetic equator has been used as an additional criterion for recognition of EN. We have identified about 6000 equatorial passages of all four spacecraft during the investigated time period and about 2000 passages in which we observed EN emissions.

We demonstrate that EN can occur almost at all the analyzed L shells. However, the occurrence rate at L shells below 2 and above 8.5 is very low.

At L shells above 10 the occurrence rate is zero. We show that EN is dependent on the magnetic local time.

The occurrence rate is lower on the night side and it is higher around the noon.