%0 Generic %1 alston2020dynamic %A Alston, William N. %A Fabian, Andrew C. %A Kara, Erin %A Parker, Michael L. %A Dovciak, Michal %A Pinto, Ciro %A Jiang, Jiachen %A Middleton, Matthew J. %A Miniutti, Giovanni %A Walton, Dominic J. %A Wilkins, Dan R. %A Buisson, Douglas J. K. %A Caballero-Garcia, Maria D. %A Cackett, Edward M. %A De Marco, Barbara %A Gallo, Luigi C. %A Lohfink, Anne M. %A Reynolds, Chris S. %A Uttley, Phil %A Young, Andrew J. %A Zogbhi, Abderahmen %D 2020 %K agn reverberation x-ray %R 10.1038/s41550-019-1002-x %T A dynamic black hole corona in an active galaxy through X-ray reverberation mapping %U http://arxiv.org/abs/2001.06454 %X X-ray reverberation echoes are assumed to be produced in the strongly distorted spacetime around accreting supermassive black holes. This signal allows us to spatially map the geometry of the inner accretion flow - a region which cannot yet be spatially resolved by any telescope - and provides a direct measure of the black hole mass and spin. The reverberation timescale is set by the light travel path between the direct emission from a hot X-ray corona and the reprocessed emission from the inner edge of the accretion disc. However, there is an inherent degeneracy in the reverberation signal between black hole mass, inner disc radius and height of the illuminating corona above the disc. Here, we use a long X-ray observation of the highly-variable active galaxy, IRAS 13224-3809, to track the reverberation signal as the system evolves on timescales of a day. With the inclusion of all the relativistic effects, modelling reveals that the height of the X-ray corona increases with increasing luminosity, providing a dynamic view of the inner accretion region. This simultaneous modelling allows us to break the inherent degeneracies and obtain an independent timing-based estimate for the mass and spin of the black hole. The uncertainty on black hole mass is comparable to the leading optical reverberation method, making X-ray reverberation a powerful technique, particularly for sources with low optical variability.

@misc{alston2020dynamic, abstract = {X-ray reverberation echoes are assumed to be produced in the strongly distorted spacetime around accreting supermassive black holes. This signal allows us to spatially map the geometry of the inner accretion flow - a region which cannot yet be spatially resolved by any telescope - and provides a direct measure of the black hole mass and spin. The reverberation timescale is set by the light travel path between the direct emission from a hot X-ray corona and the reprocessed emission from the inner edge of the accretion disc. However, there is an inherent degeneracy in the reverberation signal between black hole mass, inner disc radius and height of the illuminating corona above the disc. Here, we use a long X-ray observation of the highly-variable active galaxy, IRAS 13224-3809, to track the reverberation signal as the system evolves on timescales of a day. With the inclusion of all the relativistic effects, modelling reveals that the height of the X-ray corona increases with increasing luminosity, providing a dynamic view of the inner accretion region. This simultaneous modelling allows us to break the inherent degeneracies and obtain an independent timing-based estimate for the mass and spin of the black hole. The uncertainty on black hole mass is comparable to the leading optical reverberation method, making X-ray reverberation a powerful technique, particularly for sources with low optical variability.}, added-at = {2020-01-25T09:28:56.000+0100}, author = {Alston, William N. and Fabian, Andrew C. and Kara, Erin and Parker, Michael L. and Dovciak, Michal and Pinto, Ciro and Jiang, Jiachen and Middleton, Matthew J. and Miniutti, Giovanni and Walton, Dominic J. and Wilkins, Dan R. and Buisson, Douglas J. K. and Caballero-Garcia, Maria D. and Cackett, Edward M. and De Marco, Barbara and Gallo, Luigi C. and Lohfink, Anne M. and Reynolds, Chris S. and Uttley, Phil and Young, Andrew J. and Zogbhi, Abderahmen}, biburl = {https://www.bibsonomy.org/bibtex/294857f77b3a748df5ee9eb48561d5ad5/ericblackman}, description = {A dynamic black hole corona in an active galaxy through X-ray reverberation mapping}, doi = {10.1038/s41550-019-1002-x}, interhash = {570e012730e6149996bec182b2950d51}, intrahash = {94857f77b3a748df5ee9eb48561d5ad5}, keywords = {agn reverberation x-ray}, note = {cite arxiv:2001.06454Comment: Accepted for publication. 3 figures}, timestamp = {2020-01-25T09:28:56.000+0100}, title = {A dynamic black hole corona in an active galaxy through X-ray reverberation mapping}, url = {http://arxiv.org/abs/2001.06454}, year = 2020 }