Skip to main content
Article

The broad line region and dust torus structure of the Seyfert 1 WPVS48

C. Sobrino FigaredoAstronomisches Institut -Ruhr Universitt Bochum, GermanyF. Pozo NúñezHaifa Research Center for Theoretical Physics and Astrophysics, IsraelM. RamollaAstronomisches Institut -Ruhr Universitt Bochum, GermanyMartin HaasAstronomisches Institut -Ruhr Universitt Bochum, GermanyR. ChiniAstronomisches Institut -Ruhr Universitt Bochum, GermanyK. W. HodappIfA, Hawaii, USASteve WillnerHarvard-Smithsonian Center for Astrophysics, Cambridge, USAM. L. N. AshbyHarvard-Smithsonian Center for Astrophysics, Cambridge, USA
2018en
ABI

Abstract

Optical and near-mid-infrared reverberation mapping data obtained at Universit\"{a}tssternwarte Bochum in Chile and with the Spitzer Space Telescope allow us to explore the geometry of both the H$\alpha$ BLR and the dust torus for the nearby Seyfert-1 galaxy WPVS\,48. On average, the H$\alpha$ variations lag the blue AGN continuum by about 18 days, while the dust emission variations lag by 70 days in the J+K and by 90 days in the L+M bands. The IR echoes are sharp, while the H$\alpha$ echo is smeared. This together favours a bowl shaped toroidal geometry where the dust sublimation radius is defined by a bowl surface, which is virtually aligned with a single iso-delay surface, thus leading to the sharp IR echoes. The BLR clouds, however, are located inside the bowl and spread over a range of iso-delay surfaces, leading to a smeared echo.

Topics

Identifiers

Citations and references

Cited by 010 references