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Estimation of error on the cross-correlation, phase and time lag between evenly sampled light curves

Published 21 Jun 2010 in astro-ph.HE | (1006.4069v3)

Abstract: Temporal analysis of radiation from Astrophysical sources like Active Galactic Nuclei, X-ray Binaries and Gamma-ray bursts provide information on the geometry and sizes of the emitting regions. Establishing that two light-curves in different energy bands are correlated and measuring the phase and time-lag between them is an important and frequently used temporal diagnostic. In the present work, expressions to estimate the errors on the cross-correlation, phase and time-lag between two light-curves are presented and the same have been verified using simulations. Earlier estimates depended upon numerically expensive simulations or on dividing the light-curves in large number of segments to find the variance. The estimates presented here allow for analysis of light-curves with relatively small (~1000) number of points, as well as to obtain information on the longest time-scales available. The error estimation is verified using simulations of light-curves derived from both white and 1/f stochastic processes with measurement errors. As a demonstration, we apply this technique to the XMM-Newton light-curves of the Active Galactic Nucleus, Akn 564.

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