Impact of reverberation in flared accretion discs on temporal characteristics of X‐ray binaries

Observations suggest that accretion discs in many X‐ray binaries are likely flared. An outer edge of the disc intercepts radiation from the central X‐ray source. Part of that radiation is absorbed and re‐emitted in the optical/UV spectral ranges. However, a large fraction of that radiation is reflected and appears in the broad‐band X‐ray spectrum as a Compton reflection bump. This radiation is delayed and variability is somewhat smeared compared with the intrinsic X‐ray radiation. We compute response functions for flat and flared accretion discs and for isotropic and anisotropic X‐ray sources. A simple approximation for the response function which is valid in the broad range of the disc shapes and inclinations, inner and outer radii, and the plasma bulk velocity is proposed. We also study the impact of the X‐ray reprocessing on temporal characteristics of X‐ray binaries such as the power spectral density, auto‐ and cross‐correlation functions, and time/phase lags. We propose a reprocessing model which explains the secondary peaks in the phase lag Fourier spectra observed in Cyg X‐1 and other Galactic black hole sources. The position of the peaks could be used to determine the size of the accretion disc.