Towards nonsingular rotating compact object in ghost-free infinite derivative gravity

Luca Buoninfante; Alan S. Cornell; Gerhard Harmsen; Alexey S. Koshelev; Gaetano Lambiase; João Marto; Anupam Mazumdar

doi:10.1103/PhysRevD.98.084041

Towards nonsingular rotating compact object in ghost-free infinite derivative gravity

Luca Buoninfante, Alan S. Cornell, Gerhard Harmsen, Alexey S. Koshelev, Gaetano Lambiase, João Marto, Anupam Mazumdar

Research output: Contribution to journal › Article › peer-review

63 Citations (Scopus)

Abstract

The vacuum solution of Einstein's theory of general relativity provides a rotating metric with a ring singularity, which is covered by the inner and outer horizons and an ergo region. In this paper, we will discuss how ghost-free, quadratic curvature, infinite derivative gravity (IDG) may resolve the ring singularity. In IDG the nonlocality of the gravitational interaction can smear out the delta-Dirac source distribution by making the metric potential finite everywhere including at r=0. We show that the same feature also holds for a rotating metric. We can resolve the ring singularity such that no horizons are formed in the linear regime by smearing out a delta-source distribution on a ring. We will also show that the Kerr metric does not solve the full nonlinear equations of motion of ghost-free quadratic curvature IDG.

Original language	English
Article number	084041
Journal	Physical Review D
Volume	98
Issue number	8
DOIs	https://doi.org/10.1103/PhysRevD.98.084041
Publication status	Published - 15 Oct 2018
Externally published	Yes

ASJC Scopus subject areas

Nuclear and High Energy Physics

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10.1103/PhysRevD.98.084041

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title = "Towards nonsingular rotating compact object in ghost-free infinite derivative gravity",

abstract = "The vacuum solution of Einstein's theory of general relativity provides a rotating metric with a ring singularity, which is covered by the inner and outer horizons and an ergo region. In this paper, we will discuss how ghost-free, quadratic curvature, infinite derivative gravity (IDG) may resolve the ring singularity. In IDG the nonlocality of the gravitational interaction can smear out the delta-Dirac source distribution by making the metric potential finite everywhere including at r=0. We show that the same feature also holds for a rotating metric. We can resolve the ring singularity such that no horizons are formed in the linear regime by smearing out a delta-source distribution on a ring. We will also show that the Kerr metric does not solve the full nonlinear equations of motion of ghost-free quadratic curvature IDG.",

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AU - Buoninfante, Luca

AU - Cornell, Alan S.

AU - Harmsen, Gerhard

AU - Koshelev, Alexey S.

AU - Lambiase, Gaetano

AU - Marto, João

AU - Mazumdar, Anupam

PY - 2018/10/15

Y1 - 2018/10/15

N2 - The vacuum solution of Einstein's theory of general relativity provides a rotating metric with a ring singularity, which is covered by the inner and outer horizons and an ergo region. In this paper, we will discuss how ghost-free, quadratic curvature, infinite derivative gravity (IDG) may resolve the ring singularity. In IDG the nonlocality of the gravitational interaction can smear out the delta-Dirac source distribution by making the metric potential finite everywhere including at r=0. We show that the same feature also holds for a rotating metric. We can resolve the ring singularity such that no horizons are formed in the linear regime by smearing out a delta-source distribution on a ring. We will also show that the Kerr metric does not solve the full nonlinear equations of motion of ghost-free quadratic curvature IDG.

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Towards nonsingular rotating compact object in ghost-free infinite derivative gravity

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