The Kozai Mechanism and the Evolution of Binary Supermassive Black Holes

Blaes, Omer; Lee, Man Hoi; Socrates, Aristotle

doi:10.1086/342655

Cited by 330 publications

(397 citation statements)

References 25 publications

(38 reference statements)

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“…In the following we describe the precession rate for the more general case. Following similar derivations (Ford et al 2000;Blaes et al 2002;Naoz et al 2013;Michaely & Perets 2014;Hamers et al 2015a) we find that the precession rate of the tertiary in the quadrupole expansion, the outer orbit, due to the inner orbit, is This manuscript was prepared with the AAS L A T E X macros v5.2.…”

Section: Appendixmentioning

confidence: 74%

On the Existence of Regular and Irregular Outer Moons Orbiting the Pluto–Charon System

Michaely

Perets

Grishin

2017

ApJ

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The dwarf planet Pluto is known to host an extended system of five co-planar satellites. Previous studies have explored the formation and evolution of the system in isolation, neglecting perturbative effects by the Sun. Here we show that secular evolution due to the Sun can strongly affect the evolution of outer satellites and rings in the system, if such exist. Although precession due to extended gravitational potential from the inner Pluto-Charon binary quench such secular evolution up to a crit ∼ 0.0035 AU (∼ 0.09 R Hill the Hill radius; including all of the currently known satellites), outer orbits can be significantly altered. In particular, we find that co-planar rings and satellites should not exist beyond a crit ; rather, satellites and dust particles in these regions secularly evolve on timescales ranging between 10 4 − 10 6 yrs, and quasi-periodically change their inclinations and eccentricities through secular evolution (Lidov-Kozai oscillations). Such oscillations can lead to high inclinations and eccentricities, constraining the range where such satellites (and dust particles) can exist without crossing the orbits of the inner satellites, or crossing the outer Hill stability range. Outer satellites, if such exist are therefore likely to be irregular satellites, with orbits limited to be non-circular and/or highly inclined. These could be potentially detected and probed by the New-Horizon mission, possibly providing direct evidence for the secular evolution of the Pluto satellite system, and shedding new light on its origins.-3 -

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Section: Appendixmentioning

confidence: 74%

On the Existence of Regular and Irregular Outer Moons Orbiting the Pluto–Charon System

Michaely

Perets

Grishin

2017

ApJ

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“…Blaes et al (2002) estimated that the coalescence time of the dominant binary in hierarchical triples can be reduced by factors of ∼ 10 via the Kozai mechanism; Iwasawa et al (2005) recently observed Kozai oscillations in N-body simulations of galaxy models containing equal-mass triples.…”

Section: Multiple Black Hole Systemsmentioning

confidence: 99%

Dynamics of galaxy cores and supermassive black holes

2006

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“…In recent years, dynamical processes involving highly eccentric orbits have been invoked to interpret a wide array of astrophysical phenomena (see, e.g. Mazeh & Shaham 1979;Kiseleva et al 1998;Wu & Murray 2003;Dong et al 2014;Blaes et al 2002;Antonini & Perets 2012;Bode & Wegg 2014;Perets & Naoz 2009;Perets & Fabrycky 2009;Thompson 2011;. Highly eccentric orbits can bring two of the bodies to close approaches near the pericenters that result in dissipative interactions, mergers or collisions.…”

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confidence: 99%

Double-averaging can fail to characterize the long-term evolution of Lidov–Kozai Cycles and derivation of an analytical correction

Luo

Katz

Dong

2016

Mon. Not. R. Astron. Soc.

131

153

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The double-averaging (DA) approximation is widely employed as the standard technique in studying the secular evolution of the hierarchical three-body system. We show that effects stemmed from the short-timescale oscillations ignored by DA can accumulate over long timescales and lead to significant errors in the long-term evolution of the Lidov-Kozai cycles. In particular, the conditions for having an orbital flip, where the inner orbit switches between prograde and retrograde with respect to the outer orbit and the associated extremely high eccentricities during the switch, can be modified significantly. The failure of DA can arise for a relatively strong perturber where the mass of the tertiary is considerable compared to the total mass of the inner binary. This issue can be relevant for astrophysical systems such as stellar triples, planets in stellar binaries, stellar-mass binaries orbiting massive black holes and moons of the planets perturbed by the Sun. We derive analytical equations for the short-term oscillations of the inner orbit to the leading order for all inclinations, eccentricities and mass ratios. Under the test particle approximation, we derive the "corrected double-averaging" (CDA) equations by incorporating the effects of short-term oscillations into the DA. By comparing to N-body integrations, we show that the CDA equations successfully correct most of the errors of the long-term evolution under the DA approximation for a large range of initial conditions. We provide an implementation of CDA that can be directly added to codes employing DA equations.

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The Kozai Mechanism and the Evolution of Binary Supermassive Black Holes

Cited by 330 publications

References 25 publications

On the Existence of Regular and Irregular Outer Moons Orbiting the Pluto–Charon System

On the Existence of Regular and Irregular Outer Moons Orbiting the Pluto–Charon System

Dynamics of galaxy cores and supermassive black holes

Double-averaging can fail to characterize the long-term evolution of Lidov–Kozai Cycles and derivation of an analytical correction

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