Correlated X-ray/Ultraviolet/Optical variability in the very low mass AGN NGC 4395

TL;DR

This study monitors NGC 4395 over a year, revealing strong correlations between X-ray and UV/optical variability, with evidence supporting X-ray reprocessing by the accretion disc as the primary driver of UV/optical changes.

Contribution

First comprehensive year-long multi-band monitoring of NGC 4395 demonstrating correlated X-ray and UV/optical variability with measured lag times, supporting X-ray reprocessing models.

Findings

X-ray and UV/optical fluxes are strongly correlated.

UV/optical variability lags behind X-ray by about 400 seconds.

X-ray variability leads UV/optical variability by approximately 1 hour.

Abstract

We report the results of a one year Swift X-ray/UV/optical programme monitoring the dwarf Seyfert nucleus in NGC 4395 in 2008-2009. The UV/optical flux from the nucleus was found to vary dramatically over the monitoring period, with a similar pattern of variation in each of the observed UV/optical bands (spanning 1900 - 5500 {\AA}). In particular, the luminosity of NGC 4395 in the 1900 {\AA} band changed by more than a factor of eight over the monitoring period. The fractional variability was smaller in the UV/optical bands than that seen in the X-rays, with the X-ray/optical ratio increasing with increasing flux. Pseudo-instantaneous flux measurements in the X-ray and each UV/optical band were well correlated, with cross correlation coefficients of >0.7, significant at 99.9 per cent confidence. Archival Swift observations from 2006 sample the intra-day X-ray/optical variability on NGC 4395. These archival data show a very strong correlation between the X-ray and b bands, with a cross-correlation coefficient of 0.84 (significant at >99 per cent confidence). The peak in the cross correlation function is marginally resolved and asymmetric, suggesting that X-rays lead the b band, but by 1 hour. In response to recent (August 2011) very high X-ray flux levels from NGC4395 we triggered Swift ToO observations, which sample the intra-hour X-ray/UV variability. These observations indicate, albeit with large uncertainties, a lag of the 1900 {\AA} band behind the X-ray flux of ~400 s. The tight correlation between the X-ray and UV/optical lightcurves, together with the constraints we place on lag time-scale are consistent with the UV/optical variability of NGC 4395 being primarily due to reprocessing of X-ray photons by the accretion disc.