Magnetic Pressure Dominance Stabilizes AGN Disks against Gravitational Instability | CU Experts

Abstract; ; Magnetic effects have long been considered a possible factor in stabilizing the outer regions of active galactic nuclei accretion disks against gravitational instability (GI). However, the computational demands of testing this hypothesis have prevented comprehensive study of this problem. Here, we present results from a suite of six isothermal magnetohydrodynamics (MHD) shearing box simulations, three initialized with strong magnetization (; ; ; ; ; ; ; ; β; ; ; 0; ; ; mid; ; ; =; ; ; p; ; ; gas; ; ; /; ; ; p; ; ; mag; ; ; =; 1; ; ; 0; ; ; 2.5; ; ; ; ; ) and three initialized with weak magnetization (; ; ; ; ; ; ; ; β; ; ; 0; ; ; mid; ; ; =; 1; ; ; 0; ; ; 4; ; ; ; ; ). For each magnetization, we performed simulations with both strong (; Q; 0; = 1.0) and weak (; Q; 0; = 10.0) self-gravity, where; ; ; ; ; ; ; ; Q; ; ; 0; ; ; =; ; ; ; ; c; ; ; s; ; ; Ω; ; ; π; G; ; ; Σ; ; ; 0; ; ; ; ; ; ; is the Toomre stability parameter; we also performed pure MHD simulations for comparison. We find that our strongly magnetized disk stabilized against GI after initialization to critical stability against GI, while our corresponding weakly magnetized disk did not. We show that the strongly magnetized, strongly self-gravitating disk became dominated by magnetic pressure, which led to its stabilization.;

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