Exploring the Accretion disc/Corona Connection in NGC 6814: Insights from UV and X-ray spectral-timing studies

Abstract

We conducted a comprehensive spectral and timing analysis of NGC 6814 using AstroSat's 2019 and XMM-Newton's 2021 observations. Cross-correlation analysis revealed a significant correlation between FUV (1541 )/X-ray and UVW1 (2910 )/X-ray variations, with delays of 15~ks and 30~ks, respectively. We constructed four broadband SEDs after applying aperture correction (for the UVIT filter), subtracting host galaxy and emission line contributions from UV flux, and using mean X-ray spectra alongside selected UV data points. First, we fitted the SEDs with KYNSED model assuming various combinations of inclination, θ, color correction factors, f col, and BH spins. Best-fit models were achieved for θ=70 (consistent with past estimates for this source) and for spin ≤ 0.5, while f col is not constrained. KYNSED provided satisfactory fit to all SEDs in the case when the corona is powered by the accretion process, with 10-20% of the accretion power transferred to the corona, m/m Edd 0.1, corona radius of 6-10~rg, and height of 7.5-35~rg. Model time-lags computed using the SED best-fit results are aligned well with the observed time-lags. Although some of the model parameters are not constrained, the important result of our work is that both the broadband X-ray/UV spectra and the X-ray/UV time-lags in NGC 6814 are consistent with the hypothesis of X-ray illumination of the disc in a lamp-post geometry framework. Within this model framework, we do not need to assume an outer or inner truncated disc.