SA42A-03
The onset condition of equatorial plasma bubbles – the role of seeding mechanism and growth condition
Thursday, 17 December 2015: 10:53
2016 (Moscone West)
Hyosub Kil1, Jong-Min Choi2, Young-Sil Kwak3, Woo Kyoung Lee3 and Jaeheung Park3, (1)Johns Hopkins University, Baltimore, MD, United States, (2)Chungnam National University, Daejeon, South Korea, (3)KASI Korea Astronomy and Space Science Institute, Daejeon, South Korea
Abstract:
We investigate the role of seeding mechanism and growth condition of perturbations in the creation of equatorial plasma bubbles by analyzing the C/NOFS and ROCSAT-1 satellite observations. The initial development times of bubbles were identified by manual processing of the data, and the periodic characteristics in the occurrence of bubbles were investigated using periodograms obtained from segments of bubble chains. Our preliminary results show that bubbles initiate at the time that the pre-reversal enhancement (PRE) ends. This time corresponds to the time that the F region reaches the highest altitude where the growth rate of the Rayleigh-Taylor (R-T) instability is large. The initial onset time of bubbles varies with season and longitude in accordance with the variation of the PRE ending time. Our investigation of the periodicity in the occurrence of bubbles (spacing between bubbles) shows that a dominant periodicity does not exist; the spacing between bubbles ranges from 100 km to over 1000 km. A pronounced periodicity occurs in some series of bubbles, but, in general, multiple periodicity co-exists. The initiation of bubbles at a specific local time but the absence of a preferential wave property in the occurrence of bubbles lead to the conclusion that the onset of bubbles is controlled by the growth condition of the R-T instability.