Conformal quantum mechanics, holomorphic factorisation, and ultra-spinning black holes

Dorey, Nick; Mouland, Rishi

doi:10.1007/jhep02(2024)086

J. High Energ. Phys.

2024

DOI: 10.1007/jhep02(2024)086

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Conformal quantum mechanics, holomorphic factorisation, and ultra-spinning black holes

Nick Dorey,

Rishi Mouland

Abstract: We study a limit in which a relativistic CFT reduces to conformal quantum mechanics, and relate the partition functions of the two theories. When the initial CFT is holographic, our limit coincides with an ultra-spinning limit in the gravity dual. We therefore propose that ultra-spinning black holes are dual to an appropriate ensemble in finite-dimensional conformal quantum mechanics. The limit is studied in detail for SCFTs in four and six dimensions. These theories have a superconformal index which can be co… Show more

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Cited by 2 publications

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How to build a black hole out of instantons

Mouland

2024

J. High Energ. Phys.

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An often fruitful route to study quantum gravity is the determination and study of quantum mechanical models — that is, models with finite degrees of freedom — that capture the dynamics of a black hole’s microstates. An example of such a model is the superconformal quantum mechanics of Yang-Mills instantons, which has a proposed gravitational dual description as M-theory on a background of the form X7 × S4. This model arises in the strongly-coupled limit of the BFSS matrix model with additional fundamental hypermultiplets, offering a route towards useful numerical simulation. We construct a six-parameter black hole solution in this theory, which is generically non-supersymmetric and non-extremal, and is shown to arise in an “ultra-spinning” limit of the recently-found six-parameter AdS7 solution. We compute its thermodynamic properties, and show that in the supersymmetric limit the entropy and on-shell action match precisely the expected results as computed from the superconformal index of the quantum mechanics, to leading order in the supergravity regime. The low-lying spectrum thus provides access to the dynamics of near-extremal black holes, whose spectra are expected to receive strong quantum corrections.

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How to build a black hole out of instantons

Mouland

2024

J. High Energ. Phys.

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n-point functions in conformal quantum mechanics: a momentum space odyssey

K.S.,

Mazumdar,

Yadav

2024

J. High Energ. Phys.

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In this paper, we study the implications of conformal invariance in momentum space for correlation functions in quantum mechanics. We find that three point functions of arbitrary operators can be written in terms of the 2F1 hypergeometric function. We then show that generic four-point functions can be expressed in terms of Appell’s generalized hypergeometric function F2 with one undetermined parameter that plays the role of the conformal cross ratio in momentum space. We also construct momentum space conformal partial waves, which we compare with the Appell F2 representation. We test our expressions against free theory and DFF model correlators, finding an exact agreement. We then analyze five, six, and all higher point functions. We find, quite remarkably, that n-point functions can be expressed in terms of the Lauricella generalized hypergeometric function, EA, with n − 3 undetermined parameters, which is in one-to-one correspondence with the number of conformal cross ratios. This analysis provides the first instance of a closed form for generic momentum space conformal correlators in contrast to the situation in higher dimensions. Further, we show that the existence of multiple solutions to the momentum space Ward identities can be attributed to the Fourier transforms of the various possible time orderings. Finally, we extend our analysis to theories with $$ \mathcal{N} $$ N = 1, 2 supersymmetry, where we find that the constraints due to the superconformal ward identities are identical to identities involving hypergeometric functions.

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Conformal quantum mechanics, holomorphic factorisation, and ultra-spinning black holes

Cited by 2 publications

References 82 publications

How to build a black hole out of instantons

How to build a black hole out of instantons

n-point functions in conformal quantum mechanics: a momentum space odyssey

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