Abstract
We present in this work a method for estimation of equatorial plasma bubble (EPB) mean zonal drift velocities using keograms generated from images of the OI 6300.0 nm nightglow emission collected from an equatorial station–Cariri (7.4° S, 36.5° W), and a mid-latitude station–Cachoeira Paulista (22.7° S, 45° W), both in the Brazilian sector. The mean zonal drift velocities were estimated for 239 events recorded from 2000 to 2003 in Cariri, and for 56 events recorded over Cachoeira Paulista from 1998 to 2000. It was found that EPB zonal drift velocities are smaller (≈60 ms−1) for events occurring later in the night compared to those occurring earlier (≈150 ms−1). The decreasing rate of the zonal drift velocity is ≈10 ms−1/h. We have also found that, in general, bubble events appearing first in the west-most region of the keograms are faster than those appearing first in the east-most region. Larger zonal drift velocities occur from 19 to 23 LT in a longitude range from −37° to −33°, which shows that the keogram method can be used to describe vertical gradients in the thermospheric wind, assuming that the EPBs drift eastward with the zonal wind. The method of velocity estimation using keograms compares favorably against the mosaic method developed by Arruda, D.C.S, 2005, but the standard deviation of the residuals for the zonal drift velocities from the two methods is not small (≈15 ms−1).
Highlights
Ionospheric equatorial plasma bubbles (EPB) are extensive spatial regions of accentuated reduction of ions along the magnetic field lines
We have shown that the mean zonal drift velocity decreases with local time
We presented in this work a new method to analyze ionosphere EPBs events and calculated their mean zonal drift velocities using keogram images
Summary
Ionospheric equatorial plasma bubbles (EPB) are extensive spatial regions of accentuated reduction of ions along the magnetic field lines. Ref [16] reported an increase of 80% in their rate of occurrence during solar maxima The dynamics of these EPBs include the less well-known seeding process after the sunset in equatorial latitudes following the upward movement and spreading of the plasma to low latitudes towards magnetic conjugate points along the geomagnetic field lines.
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