We explore the effects of dissipationless merging on the fundamental plane of elliptical galaxies using an N-body code based on a new, high-performance numerical scheme. We investigate the two extreme cases of galaxy growth by equal-mass merging and accretion of small stellar systems; in a subset of simulations we also consider the presence of dark matter haloes around the merging galaxies. Curiously, we found that the fundamental plane is preserved by major merging, while in the accretion scenario its edge-on thickness is only marginally reproduced, with substantial thickening in the case of merging with low angular momentum. We also found that both the Faber-Jackson and Kormendy relations are not reproduced by the simulations, in accordance with the results of a preliminary analysis based on a simple application of the virial theorem. Finally, we discuss the implications of our results for the origin of the M BH-σ0 and Magorrian relations. We found that dissipationless merging is unable to reproduce the MBH-σ 0 relation, if the black hole masses add linearly (while the Magorrian relation is nicely reproduced); in contrast, a black hole merging with substantial emission of gravitational waves reproduces the M BH-σ0 relation but fails to reproduce the Magorrian relation. We argue that our results strongly point towards a major role of dissipation in the formation of early-type galaxies and in the growth of their central supermassive black holes, thus supporting the idea of a link between galaxy formation and quasi-stellar object activity.

Nipoti, C., Londrillo, P., Ciotti, L. (2003). Galaxy merging, the fundamental plane of elliptical galaxies and the M BHσ0 relation. MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY, 342(2), 501-512 [10.1046/j.1365-8711.2003.06554.x].

Galaxy merging, the fundamental plane of elliptical galaxies and the M BHσ0 relation

Nipoti, C.;Londrillo, P.;Ciotti, L.
2003

Abstract

We explore the effects of dissipationless merging on the fundamental plane of elliptical galaxies using an N-body code based on a new, high-performance numerical scheme. We investigate the two extreme cases of galaxy growth by equal-mass merging and accretion of small stellar systems; in a subset of simulations we also consider the presence of dark matter haloes around the merging galaxies. Curiously, we found that the fundamental plane is preserved by major merging, while in the accretion scenario its edge-on thickness is only marginally reproduced, with substantial thickening in the case of merging with low angular momentum. We also found that both the Faber-Jackson and Kormendy relations are not reproduced by the simulations, in accordance with the results of a preliminary analysis based on a simple application of the virial theorem. Finally, we discuss the implications of our results for the origin of the M BH-σ0 and Magorrian relations. We found that dissipationless merging is unable to reproduce the MBH-σ 0 relation, if the black hole masses add linearly (while the Magorrian relation is nicely reproduced); in contrast, a black hole merging with substantial emission of gravitational waves reproduces the M BH-σ0 relation but fails to reproduce the Magorrian relation. We argue that our results strongly point towards a major role of dissipation in the formation of early-type galaxies and in the growth of their central supermassive black holes, thus supporting the idea of a link between galaxy formation and quasi-stellar object activity.
2003
Nipoti, C., Londrillo, P., Ciotti, L. (2003). Galaxy merging, the fundamental plane of elliptical galaxies and the M BHσ0 relation. MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY, 342(2), 501-512 [10.1046/j.1365-8711.2003.06554.x].
Nipoti, C.; Londrillo, P.; Ciotti, L.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/901474
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