Microlensing constraint on the size of the gamma-ray emission region in blazar B0218+357

TL;DR

This study uses gravitational microlensing observations of blazar B0218+357 to constrain the size of its gamma-ray emission region, providing insights into the source's structure near the supermassive black hole.

Contribution

We developed a deconvolution method to analyze microlensing effects in gamma-ray lightcurves, enabling size estimation of the emission region in a gravitationally lensed blazar.

Findings

Detected microlensing caustic crossing event during a 2012 flare.

Estimated gamma-ray emission region size as approximately 10^14 cm.

Results suggest gamma-ray production occurs near the blazar's black hole vicinity.

Abstract

Context. Observations of the effect of microlensing in gravitationally lensed quasars could potentially be used to study the structure of the source on distance scales down to the size of the supermassive black hole powering the quasar activity. Aims. We search for the microlensing effect in the gamma-ray band using the signal from a gravitationally lensed blazar B0218+357. Methonds. We develop a method of deconvolution of contributions of two images of the source into the gamma-ray band flaring lightcurve. We use this method to study the evolution of the magnification factor ratio between the two images throughout the flaring episodes. We interpret the time variability of the ratio as a signature of the microlensing effect and derive constraints on the physical parameters of the gamma-ray source by comparing the observed variability properties of the magnification factor ratio with those derived from numerical simulations of the microlensing caustics networks. Results. We find that the magnification factor ratio has experienced a change characteristic for a microlensing caustic crossing event during a 100 d flaring period in 2012. It has further changed between 2012 and a recent flaring episode in 2014. We use the measurement of the maximal magnification and duration of the caustic crossing event to derive an estimate of the projected size of the gamma-ray emission region in B0218+357, $R_\gamma \sim 10^{14}$ cm. This estimate is compatible with a complementary estimate found from the minimal variability time scale. The microlensing / minimal variability time scale measurements of the source size suggest that the gamma-ray emission is produced at the base of the blazar jet, in the direct vicinity of the central supermassive black hole.