Abstract:
The spatio-temporal variations in ionospheric vertical total electron content (TEC) data, which often reflect their
scale invariant properties, can well be studied with multifractal analysis. We discuss the multifractal behaviour
of TEC recorded at a total of 27 stations confined to a narrow longitude band (35°W-80°W) spanning from
equator to high-latitude regions (30°S to 80°N) (geographic coordinates) during solar minimum (2008) and
solar maximum (2014), using multifractal detrended fluctuation analysis (MFDFA). MFDFA provides an
understanding of the multifractal scaling behaviour of a signal using the multifractal singularity spectra and the
generalised Hurst exponents as diagnostic tools. The objectives of this study are to (i) understand the latitudinal
dependence of the multifractal behaviour of TEC, (ii) compare the multifractal behaviour of TEC corresponding
to the well-known 27-day variation (solar rotation period) and its harmonics and the 1-day (solar diurnal)
periodicities, during 2008 and 2014 and (iii) understand the lunar tidal influence on TEC. Results indicate that
except for the 1-day period, the TEC at all other periods shows a higher degree of multifractality during solar
maximum compared to solar minimum. Further, irrespective of the solar activity, the degree of mutifractality in
general decreases with increase in period for all latitude zones for periods of 27-day and its harmonics.
However, the 1-day period exhibits monofractal behaviour regardless of the solar activity. The influence of semilunar
tidal effects (having a periodicity of about 14.5 days) as a function of latitude is clearly seen in the 13.5-
day periodicity (i.e., the 2nd harmonic of 27-day variation) of TEC. It manifests in the form of decreasing
differences in the widths of the multifractal singularity spectra corresponding to the years 2008 and 2014, with
increase in latitude. Results are discussed in the light of these observations.
