Abstract
The $\textrm{SL}(2,\mathbb{R})$ Wess-Zumino-Novikov-Witten model realises bosonic-string theory in $\textrm{AdS}_{3}$ with pure Neveu-Schwarz-Neveu-Schwarz flux. We construct an effective action in the semi-classical limit of the model, which corresponds to a $\textrm{SL}(2,\mathbb{R})$ spin-chain $\sigma$-model. We adopt two complementary points of view. Firstly, we consider the classical action. We identify fast and slow target-space coordinates. We impose a gauge-fixing condition to the former. By expanding the gauge-fixed action in an effective coupling, we obtain the effective action for the slow coordinates. Secondly, we consider the spin chain of the model. We postulate a set of coherent states to express a transition amplitude in the spin chain as a path integral. We observe that the temporal interval is discretised in terms of the step length of the spatial interval. This relationship implies that the Landau-Lifshitz limit of the spin chain involves both intervals. The limit yields a semi-classical path integral over coherent states, wherein we identify the effective action again.
Highlights
The SLð2; RÞ Wess-Zumino-Novikov-Witten (WZNW) model provides a testing ground for nonperturbative techniques due to its exact solvability.1 The model realizes bosonic-string theory in AdS3 supported with pure NeveuSchwarz-Neveu-Schwarz (NSNS) three-form flux
The spectrum of the SLð2; RÞ WZNW model is computable by analyzing the representations of the Kač-Moody algebra of the currents in the world sheet two-dimensional conformal field theory (CFT2) [1]
The PSUð1; 1j2Þ WZNW model is the supersymmetric embedding of the model, and realises type IIB superstring theory on AdS3 × S3 ⊂ AdS3 × S3 × T4 with pure NSNS flux [2]
Summary
Departamento de Física Teórica and Instituto de Física de Partículas y del Cosmos (IPARCOS), Universidad Complutense de Madrid, 28040 Madrid, Spain (Received 23 March 2021; accepted 28 April 2021; published 26 May 2021). We construct an effective action in the semiclassical limit of the model, which corresponds to a SLð2; RÞ spin-chain σ-model. By expanding the gauge-fixed action in an effective coupling, we obtain the effective action for the slow coordinates. We consider the spin chain of the model. We postulate a set of coherent states to express a transition amplitude in the spin chain as a path integral. We observe that the temporal interval is discretized in terms of the step length of the spatial interval. This relationship implies that the Landau-Lifshitz limit of the spin chain involves both intervals. The limit yields a semiclassical path integral over coherent states, wherein we identify the effective action again
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