Near-extremal Kerr-like ECO in the Kerr/CFT correspondence in higher spin perturbations

M. Zhahir Djogama; Muhammad F. A. R. Sakti; Freddy P. Zen; Mirza Satriawan

doi:10.1140/epjc/s10052-024-13121-w

2024 Impact factor 4.8

Particles and Fields

Open Access

Eur. Phys. J. C (2024) 84: 777
https://doi.org/10.1140/epjc/s10052-024-13121-w

Regular Article - Theoretical Physics

Near-extremal Kerr-like ECO in the Kerr/CFT correspondence in higher spin perturbations

M. Zhahir Djogama¹, Muhammad F. A. R. Sakti³^b, Freddy P. Zen¹^,2 and Mirza Satriawan⁴

¹ Theoretical High Energy Physics Group, Department of Physics, Institut Teknologi Bandung, 40132, Bandung, Indonesia
² Indonesia Center for Theoretical and Mathematical Physics (ICTMP), Institut Teknologi Bandung, 40132, Bandung, Indonesia
³ High Energy Physics Theory Group, Department of Physics, Faculty of Science, Chulalongkorn University, 10330, Bangkok, Thailand
⁴ Department of Physics, Faculty of Mathematics and Natural Sciences, Universitas Gadjah Mada, 55281, Yogyakarta, Indonesia

^b fitrahalfian@gmail.com

Received: 19 January 2024
Accepted: 14 July 2024
Published online: 5 August 2024

Abstract

The Kerr/CFT correspondence has been established to explore the quantum theory of gravity in the near-horizon geometry of an extreme Kerr black holes. The quantum gravitational corrections on the near-horizon region may manifest in form of a partially reflective membrane that replace the horizon. In such modification, the black holes now can be seen as a horizonless exotic compact object (ECO). In this paper, we consider the properties of Kerr-like ECOs in near-extremal condition using Kerr/CFT correspondence. We study the quasinormal modes and absorption cross-section in that background and compare these by using CFT dual computation. The corresponding dual CFT one needs to incorporate finite size/finite N effects in the dual CFT terminology. We also extend the dual CFT analysis for higher spin perturbations such as photon and graviton. We find consistency between properties of the ECOs from gravity sides and from CFT sides. The quasinormal mode spectrum is in line with non-extreme case, where the differences are in the length of the circle, on which the dual CFT lives, and phase shift of the incoming perturbation. The absorption cross-section has oscillatory feature that start to disappear near extremal limit. The particle spin determines the phase shift and conformal weight. We also obtain that the echo time-delay depends on the position of the membrane and extremality of the ECOs.

© The Author(s) 2024

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