Accretion disk warping by resonant relaxation: The case of maser disk
  NGC4258

Alexander; Alexander; Beloborodov; Braatz; Eilon; Ferrarese; Frank; Gammie; Gebhardt; Greenhill; Herrnstein; Hopman; Kolykhalov; Kondratko; Maloney; Michal Bregman; Milosavljević; Moran; Neufeld; Paumard; Pizzella; Pringle; Pringle; Shakura; Shields; Soltan; Tal Alexander; Ulubay-Siddiki; Watson

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Accretion disk warping by resonant relaxation: The case of maser disk NGC4258

Authors: Alexander
Alexander
Beloborodov
Braatz
Eilon
Ferrarese
Frank
Gammie
Gebhardt
Greenhill
Herrnstein
Hopman
Kolykhalov
Kondratko
Maloney
Michal Bregman
Milosavljević
Moran
Neufeld
Paumard
Pizzella
Pringle
Pringle
Shakura
Shields
Soltan
Tal Alexander
Ulubay-Siddiki
Watson
Publication date: 8 September 2009
Publisher: 'IOP Publishing'
Doi

Abstract

The maser disk around the massive black hole (MBH) in active galaxy NGC 4258 exhibits an O(10 deg) warp on the O(0.1 pc) scale. The physics driving the warp are still debated. Suggested mechanisms include torquing by relativistic frame dragging or by radiation pressure. We propose here a new warping mechanism: resonant torquing of the disk by stars in the dense cusp around the MBH. We show that resonant torquing can induce such a warp over a wide range of observed and deduced physical parameters of the maser disk.Comment: 4 pp, 2 figure

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