Dust reverberation mapping of Z229-15
Mandal Amit Kumar; Mathew Blesson; Wylezalek Dominika; Sagar Ram; Pal Indrani; Muneer S; Stalin CS; Rakshit Suvendu; Patig Markus Kissler
Dust reverberation mapping of Z229-15
Mandal Amit Kumar
Mathew Blesson
Wylezalek Dominika
Sagar Ram
Pal Indrani
Muneer S
Stalin CS
Rakshit Suvendu
Patig Markus Kissler
OXFORD UNIV PRESS
Julkaisun pysyvä osoite on:
https://urn.fi/URN:NBN:fi-fe2021093048061
https://urn.fi/URN:NBN:fi-fe2021093048061
Tiivistelmä
We report results of the dust reverberation mapping (DRM) on the Seyfert 1 galaxy Z229-15 at z = 0.0273. Quasi-simultaneous photometric observations for a total of 48 epochs were acquired during the period 2017 July to 2018 December in B, V, J, H and K-s bands. The calculated spectral index (α) between B and V bands for each epoch was used to correct for the accretion disc (AD) component present in the infrared light curves. The observed α ranges between -0.99 and 1.03. Using cross-correlation function analysis we found significant time delays between the optical V and the AD corrected J, H and Ks light curves. The lags in the rest frame of the source are 12.52(-9.55)(+10.00) d (between V and J), 15.63-5.11+5.05 d (between V and H) and 20.36-5.68 +5.82 d (between V and Ks). Given the large error bars, these lags are consistent with each other. However, considering the lag between V and K-s bands to represent the inner edge of the dust torus, the torus in Z229-15 lies at a distance of 0.017 pc from the central ionizing continuum. This is smaller than that expected from the radius luminosity (R-L) relationship known from DRM. Using a constant α = 0.1 to account for the AD component, as is normally done in DRM, the deduced radius (0.025 pc) lies close to the expected R-L relation. However, usage of constant a in DRM is disfavoured as the alpha of the ionizing continuum changes with the flux of the source.
Kokoelmat
- Rinnakkaistallenteet [19207]