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This research investigates how disc heights affect acoustic surface gravity in rotating black holes governed by Kerr metrics.

February 11, 2026Open Access

Effect of disc heights on acoustic surface gravity for accreting Kerr black holes

Puntos clave

This research investigates how disc heights affect acoustic surface gravity in rotating black holes governed by Kerr metrics.
Analyzed hydrostatic equilibrium in axially symmetric accretion flows.
Identified sonic points and stationary shocks within the acoustic geometry.
Computed acoustic surface gravity by perturbing the flow and evaluating metric elements.
Acoustic surface gravity varies with the rotational spin of the black hole.
Different configurations of flow thickness lead to distinct acoustic geometries.
Sonic points play a critical role in determining the characteristics of the acoustic space-time.

Resumen

Abstract For axially symmetric accretion maintained in hydrostatic equilibrium along the vertical direction, we investigate how the characteristic features of the embedded acoustic geometry depend on the background Kerr metric, and how such dependence is governed by two different expressions for the geometrical configurations of the matter flow. We first obtain the location of the sonic points and stationary shock between the sonic points. We then perturb the flow to obtain the corresponding metric elements of the acoustic space-time. We compute the value of the acoustic surface gravity as a function of the spin angular momentum of the rotating black hole for the different flow thicknesses considered in the present work.

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