Extreme eccentricities of triple systems: Analytic results
Abstract
Triple stars and compact objects are ubiquitously observed in nature. Their long-term evolution is complex; in particular, the von-Zeipel-Lidov-Kozai (ZLK) mechanism can potentially lead to highly eccentric encounters of the inner binary. Such encounters can lead to a plethora of interacting binary phenomena, as well as stellar and compact-object mergers. Here we find explicit analytical formulae for the maximal eccentricity, e max, of the inner binary undergoing ZLK oscillations, where both the test particle limit (parametrised by the inner-to-outer angular momentum ratio η) and the double-averaging approximation (parametrised by the period ratio, ε SA) are relaxed, for circular outer orbits. We recover known results in both limiting cases (either η or ε SA 0) and verify the validity of our model using numerical simulations. We test our results with two accurate numerical N-body codes, Rebound for Newtonian dynamics and Tsunami for general-relativistic (GR) dynamics, and find excellent correspondence. We discuss the implications of our results for stellar triples and both stellar and supermassive triple black hole mergers.
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