A quantum framework for AdS/dCFT through fuzzy spherical harmonics on S4

Aleix Gimenez-Grau; Charlotte Kristjansen; Matthias Volk; Matthias Wilhelm

doi:10.1007/JHEP04(2020)132

A quantum framework for AdS/dCFT through fuzzy spherical harmonics on S⁴

Aleix Gimenez-Grau, Charlotte Kristjansen, Matthias Volk, Matthias Wilhelm

University of Copenhagen

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Abstract

We consider a non-supersymmetric domain-wall version of N = 4 SYM theory where five out of the six scalar fields have non-zero classical values on one side of a wall of codimension one. The classical fields have commutators which constitute an irreducible representation of the Lie algebra so(5) leading to a highly non-trivial mixing between color and flavor components of the quantum fields. Making use of fuzzy spherical harmonics on S ⁴, we explicitly solve the mixing problem and derive not only the spectrum of excitations at the quantum level but also the propagators of the original fields needed for perturbative quantum computations. As an application, we derive the one-loop one-point function of a chiral primary and find complete agreement with a supergravity prediction of the same quantity in a double-scaling limit which involves a limit of large instanton number in the dual D3-D7 probe-brane setup.

Original language	English
Article number	132
Journal	Journal of High Energy Physics
Volume	2020
Issue number	4
Number of pages	37
ISSN	1126-6708
DOIs	https://doi.org/10.1007/JHEP04(2020)132
Publication status	Published - 21. Apr 2020
Externally published	Yes

Keywords

1/N Expansion
AdS-CFT Correspondence
Supersymmetric Gauge Theory

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Cite this

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title = "A quantum framework for AdS/dCFT through fuzzy spherical harmonics on S4",

abstract = "We consider a non-supersymmetric domain-wall version of N = 4 SYM theory where five out of the six scalar fields have non-zero classical values on one side of a wall of codimension one. The classical fields have commutators which constitute an irreducible representation of the Lie algebra so(5) leading to a highly non-trivial mixing between color and flavor components of the quantum fields. Making use of fuzzy spherical harmonics on S 4, we explicitly solve the mixing problem and derive not only the spectrum of excitations at the quantum level but also the propagators of the original fields needed for perturbative quantum computations. As an application, we derive the one-loop one-point function of a chiral primary and find complete agreement with a supergravity prediction of the same quantity in a double-scaling limit which involves a limit of large instanton number in the dual D3-D7 probe-brane setup.",

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AU - Gimenez-Grau, Aleix

AU - Kristjansen, Charlotte

AU - Volk, Matthias

AU - Wilhelm, Matthias

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N2 - We consider a non-supersymmetric domain-wall version of N = 4 SYM theory where five out of the six scalar fields have non-zero classical values on one side of a wall of codimension one. The classical fields have commutators which constitute an irreducible representation of the Lie algebra so(5) leading to a highly non-trivial mixing between color and flavor components of the quantum fields. Making use of fuzzy spherical harmonics on S 4, we explicitly solve the mixing problem and derive not only the spectrum of excitations at the quantum level but also the propagators of the original fields needed for perturbative quantum computations. As an application, we derive the one-loop one-point function of a chiral primary and find complete agreement with a supergravity prediction of the same quantity in a double-scaling limit which involves a limit of large instanton number in the dual D3-D7 probe-brane setup.

AB - We consider a non-supersymmetric domain-wall version of N = 4 SYM theory where five out of the six scalar fields have non-zero classical values on one side of a wall of codimension one. The classical fields have commutators which constitute an irreducible representation of the Lie algebra so(5) leading to a highly non-trivial mixing between color and flavor components of the quantum fields. Making use of fuzzy spherical harmonics on S 4, we explicitly solve the mixing problem and derive not only the spectrum of excitations at the quantum level but also the propagators of the original fields needed for perturbative quantum computations. As an application, we derive the one-loop one-point function of a chiral primary and find complete agreement with a supergravity prediction of the same quantity in a double-scaling limit which involves a limit of large instanton number in the dual D3-D7 probe-brane setup.

KW - 1/N Expansion

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KW - Supersymmetric Gauge Theory

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