On 15 January 2022, various ionospheric disturbances were observed over Japan. Traveling ionospheric disturbances (TIDs) which were shown to be associated with the volcanic eruption of Hunga Tonga-Hunga Ha'apai, Tonga (Saito, EPS, 2022). Following the TIDs, another types of ionospheric disturbances accompanying enhanced small-scale irregularities represented by the rate of the total electron content (TEC) index (ROTI) were observed at several locations over Japan at geographic latitudes as high as 38N (33.8 in the magnetic latitude).
The region of the ROTI enhancement where small-scale irregularities exist are well coincided with the region of TEC enhancement. These characteristics of the irregularities appeared to be similar to those associated with the storm-enhanced density (SED) or storm-induced plasma stream (SIPS) observed in the geomagnetic storms (Saito et al., JPGU, 2022).
By using high-sampling rate (1 Hz) data obtained from the GNSS Earth Observation Network (GNSS) operated by the Geospatial Information Authority of Japan (GIS), we investigated the motion of the small-scale irregulrities. Furthermore, the short-scale ionospheric TEC variation which may disrupt high-precision/high-integrity GNSS-based navigtion systems are evaluated
The possible mechanisms inferred from the drift of irregularities and impacts on GNSS-based navigation systems are be discussed.