Blazar S5 0716+714 is well-known for its short-term variability, down to intra-day time-scales. We here present the 2-min cadence optical light curve obtained by the TESS space telescope in 2019 December - 2020 January and analyse the object fast variability with unprecedented sampling. Supporting observations by the Whole Earth Blazar Telescope Collaboration in B, V, R, and I bands allow us to investigate the spectral variability during the TESS pointing. The spectral analysis is further extended in frequency to the UV and X-ray bands with data from the Neil Gehrels Swift Observatory. We develop a new method to unveil the shortest optical variability time-scales. This is based on progressive de-trending of the TESS light curve by means of cubic spline interpolations through the binned fluxes, with decreasing time bins. The de-trended light curves are then analysed with classical tools for time-series analysis (periodogram, auto-correlation and structure functions). The results show that below 3 d there are significant characteristic variability time-scales of about 1.7, 0.5, and 0.2 d. Variability on time-scales ≲0.2 d is strongly chromatic and must be ascribed to intrinsic energetic processes involving emitting regions, likely jet sub-structures, with dimension less than about 10-3 pc. In contrast, flux changes on time-scales ≳0.5 d are quasi-achromatic and are probably due to Doppler factor changes of geometric origin.
M Raiteri, C., Villata, M., Carosati, D., Benítez, E., O Kurtanidze, S., C Gupta, A., et al. (2020). The dual nature of blazar fast variability. Space and ground observations of S5 0716+714. MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY, 501(1), 1100-1115 [10.1093/mnras/staa3561].
The dual nature of blazar fast variability. Space and ground observations of S5 0716+714
G Bonnoli;A Marchini;L Stiaccini;
2020-01-01
Abstract
Blazar S5 0716+714 is well-known for its short-term variability, down to intra-day time-scales. We here present the 2-min cadence optical light curve obtained by the TESS space telescope in 2019 December - 2020 January and analyse the object fast variability with unprecedented sampling. Supporting observations by the Whole Earth Blazar Telescope Collaboration in B, V, R, and I bands allow us to investigate the spectral variability during the TESS pointing. The spectral analysis is further extended in frequency to the UV and X-ray bands with data from the Neil Gehrels Swift Observatory. We develop a new method to unveil the shortest optical variability time-scales. This is based on progressive de-trending of the TESS light curve by means of cubic spline interpolations through the binned fluxes, with decreasing time bins. The de-trended light curves are then analysed with classical tools for time-series analysis (periodogram, auto-correlation and structure functions). The results show that below 3 d there are significant characteristic variability time-scales of about 1.7, 0.5, and 0.2 d. Variability on time-scales ≲0.2 d is strongly chromatic and must be ascribed to intrinsic energetic processes involving emitting regions, likely jet sub-structures, with dimension less than about 10-3 pc. In contrast, flux changes on time-scales ≳0.5 d are quasi-achromatic and are probably due to Doppler factor changes of geometric origin.File | Dimensione | Formato | |
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https://hdl.handle.net/11365/1120847