Black hole extremality in nonlinear electrodynamics: a lesson for weak gravity and Festina Lente bounds

Abe, Yoshihiko; Noumi, Toshifumi; Yoshimura, Kaho

doi:10.1007/jhep09(2023)024

J. High Energ. Phys.

2023

DOI: 10.1007/jhep09(2023)024

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Black hole extremality in nonlinear electrodynamics: a lesson for weak gravity and Festina Lente bounds

Yoshihiko Abe,

Toshifumi Noumi,

Kaho Yoshimura

Abstract: We study black hole extremality in nonlinear electrodynamics motivated by the Weak Gravity Conjecture (WGC) and the Festina Lente (FL) bound. For illustration, we consider the Euler-Heisenberg model and the Dirac-Born-Infeld model in asymptotically flat spacetime, de Sitter spacetime, and anti-de Sitter spacetime. We find that in all cases the extremal condition enjoys a certain monotonicity expected by the WGC. This provides evidence for the conjecture beyond the leading order corrections to the Einstein-Maxw… Show more

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2024

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Cited by 2 publications

References 84 publications

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Extremal black hole decay in de Sitter space

Aalsma,

van der Schaar,

Visser

2024

J. High Energ. Phys.

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The decay of extremal charged black holes has been a useful guidance to derive consistency conditions in quantum gravity. In de Sitter space it has been argued that requiring (extremal) charged Nariai black holes to decay without forming a big crunch singularity yields the Festina Lente (FL) bound: particles with mass ms and charge q should satisfy $$ {m}_s^2\gg {M}_p Hq $$ m s 2 ≫ M p Hq , where Mp is the Planck mass and H the Hubble parameter. Using a tunneling approach we show that the decay probability of charged black holes in de Sitter space in the s-wave sector is P ∼ exp(∆Sb), where ∆Sb is the change in the black hole entropy. We find that the FL bound corresponds to ∆Sb ≤ – 1 in the Nariai and probe limit. However, taking into account backreaction we identify unsuppressed decay channels, which might be subdominant, that violate this bound but nonetheless do not result in a big crunch for every observer.

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Extremal black hole decay in de Sitter space

Aalsma,

van der Schaar,

Visser

2024

J. High Energ. Phys.

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String loops and gravitational positivity bounds: imprint of light particles at high energies

Caron-Huot,

Tokuda

2024

J. High Energ. Phys.

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We study loop corrections to positivity bounds on effective field theories in the context of 2 → 2 scattering in gravitational theories, in the presence of light particles. It has been observed that certain negative contributions at low energies are enhanced by inverse powers of a small mass m and are nontrivial to cancel against other low-energy contributions. These originate from near the forward limit of diagrams involving graviton exchange. We observe that scattering in this kinematics domain remains infrared-sensitive even at high center-of-mass energy. By considering a string-inspired model in which high-energy loops can be calculated using unitarity and Regge behavior of tree amplitudes, we uncover a natural mechanism through which 1/m-enhanced terms perfectly cancel between low and high energy contributions. This concretely explains possible positivity violations in the presence of gravity from the high-energy viewpoint.

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Black hole extremality in nonlinear electrodynamics: a lesson for weak gravity and Festina Lente bounds

Cited by 2 publications

References 84 publications

Extremal black hole decay in de Sitter space

Extremal black hole decay in de Sitter space

String loops and gravitational positivity bounds: imprint of light particles at high energies

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