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Partition functions of holographic minimal models
The partition function of the minimal model CFT is computed in the large N ’t Hooft limit and compared to the spectrum of the proposed holographic dual, a 3d higher spin gravity theory coupled to massive scalar fields. At finite N , the CFT contains additional light states that are not visible in th...
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| Published in: | The journal of high energy physics 2011-08, Vol.2011 (8), Article 77 |
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| Main Authors: | , , , |
| Format: | Article |
| Language: | English |
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| container_issue | 8 |
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| container_title | The journal of high energy physics |
| container_volume | 2011 |
| creator | Gaberdiel, Matthias R. Gopakumar, Rajesh Hartman, Thomas Raju, Suvrat |
| description | The partition function of the
minimal model CFT is computed in the large
N
’t Hooft limit and compared to the spectrum of the proposed holographic dual, a 3d higher spin gravity theory coupled to massive scalar fields. At finite
N
, the CFT contains additional light states that are not visible in the perturbative gravity theory. We carefully define the large
N
limit, and give evidence that, at
N
= ∞, the additional states become null and decouple from all correlation functions. The surviving states are shown to match precisely (for all values of the ’t Hooft coupling) with the spectrum of the higher spin gravity theory. The agreement between bulk and boundary is partially explained by symmetry considerations involving the conjectured equivalence between the
algebra in the large
N
limit and the higher spin algebra of the Vasiliev theory. |
| doi_str_mv | 10.1007/JHEP08(2011)077 |
| format | article |
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minimal model CFT is computed in the large
N
’t Hooft limit and compared to the spectrum of the proposed holographic dual, a 3d higher spin gravity theory coupled to massive scalar fields. At finite
N
, the CFT contains additional light states that are not visible in the perturbative gravity theory. We carefully define the large
N
limit, and give evidence that, at
N
= ∞, the additional states become null and decouple from all correlation functions. The surviving states are shown to match precisely (for all values of the ’t Hooft coupling) with the spectrum of the higher spin gravity theory. The agreement between bulk and boundary is partially explained by symmetry considerations involving the conjectured equivalence between the
algebra in the large
N
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minimal model CFT is computed in the large
N
’t Hooft limit and compared to the spectrum of the proposed holographic dual, a 3d higher spin gravity theory coupled to massive scalar fields. At finite
N
, the CFT contains additional light states that are not visible in the perturbative gravity theory. We carefully define the large
N
limit, and give evidence that, at
N
= ∞, the additional states become null and decouple from all correlation functions. The surviving states are shown to match precisely (for all values of the ’t Hooft coupling) with the spectrum of the higher spin gravity theory. The agreement between bulk and boundary is partially explained by symmetry considerations involving the conjectured equivalence between the
algebra in the large
N
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minimal model CFT is computed in the large
N
’t Hooft limit and compared to the spectrum of the proposed holographic dual, a 3d higher spin gravity theory coupled to massive scalar fields. At finite
N
, the CFT contains additional light states that are not visible in the perturbative gravity theory. We carefully define the large
N
limit, and give evidence that, at
N
= ∞, the additional states become null and decouple from all correlation functions. The surviving states are shown to match precisely (for all values of the ’t Hooft coupling) with the spectrum of the higher spin gravity theory. The agreement between bulk and boundary is partially explained by symmetry considerations involving the conjectured equivalence between the
algebra in the large
N
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| ispartof | The journal of high energy physics, 2011-08, Vol.2011 (8), Article 77 |
| issn | 1029-8479 1029-8479 |
| language | eng |
| recordid | cdi_proquest_journals_2398234138 |
| source | Publicly Available Content Database; Springer Nature - SpringerLink Journals - Fully Open Access |
| subjects | Classical and Quantum Gravitation Elementary Particles Equivalence Gravitation High energy physics Partitions (mathematics) Physics Physics and Astronomy Quantum Field Theories Quantum Field Theory Quantum Physics Relativity Theory Scalars String Theory Symmetry |
| title | Partition functions of holographic minimal models |
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