Lensing from small-scale travelling ionospheric disturbances observed using LOFAR

• Published in: Journal of space weather and space climate Vol. 12; p. 34
• Main Authors: Boyde, Ben, Wood, Alan, Dorrian, Gareth, Fallows, Richard A., Themens, David, Mielich, Jens, Elvidge, Sean, Mevius, Maaijke, Zucca, Pietro, Dabrowski, Bartosz, Krankowski, Andrzej, Vocks, Christian, Bisi, Mario
• Format: Journal Article
• Language: English
• Published: EDP Sciences 2022
• Subjects: ionospheric physics; phase screen; small-scale travelling ionospheric disturbance
• ISSN: 2115-7251; 2115-7251
• DOI: 10.1051/swsc/2022030

Observations made using the LOw-Frequency ARray (LOFAR) between 10:15 and 11:48 UT on the 15th of September 2018 over a bandwidth of approximately 25–65 MHz contain discrete pseudo-periodic features of ionospheric origin. These features occur within a period of approximately 10 min and collectively last roughly an hour. They are strongly frequency dependent, broadening significantly in time towards the lower frequencies, and show an overlaid pattern of diffraction fringes. By modelling the ionosphere as a thin phase screen containing a wave-like disturbance, we are able to replicate the observations, suggesting that they are associated with small-scale travelling ionospheric disturbances (TIDs). This modelling indicates that the features observed here require a compact radio source at a low elevation and that the TID or TIDs in question have a wavelength <~30 km. Several features suggest the presence of deviations from an idealised sinusoidal wave form. These results demonstrate LOFAR’s capability to identify and characterise small-scale ionospheric structures.