Chiral gauged Wess-Zumino-Witten theories and coset models in conformal field theory

Chung, Stephen-wei; Tye, S.‐H. Henry

doi:10.1103/physrevd.47.4546

Cited by 26 publications

(39 citation statements)

References 52 publications

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“…It was suggested to 1 We shall mostly consider CWZNW models in the cases when the 'left' and 'right' subgroups are the same. We disagree with the claim [14] that the CWZNW model with H L = H R = H is equivalent to G/H or GWZNW model. cancel the 2d gauge anomaly by introducing an additional world sheet coupling term which corresponds to a non-vanishing target space gauge field background [22].…”

Section: Introductioncontrasting

confidence: 39%

“…It is useful to give the explicit derivation of the expressions for the bosonic and heterotic SL(2, IR)/IR backgrounds using the following parametrisation of the SL(2, IR) group 14 The variables t, x in (7.11) have been rescalled with respect to the original 'classical' variables of the SL(2, IR) group element, i.e. (t, x) → 2/(b + 1) 1/2 (t, x).…”

Section: Superfield Approachmentioning

confidence: 99%

“…A closely related to GWZNW model is the so called chiral gauged WZNW model [14] (CWZNW) in which one does not include the 'counterterm' Tr (AĀ) in the action [9] (A m = (A,Ā) is a 2d vector field with values in the algebra of H) and thus one has only 'chiral' gauge invariance (with gauge parameters constrained to be holomorphic or antiholomorphic). As we shall see below, the action of CWZNW is, in fact, the only local modification of the GWZNW action which can also be represented in terms of a combination of independent WZNW actions and thus is certainly conformally invariant at the quantum level.…”

Section: Introductionmentioning

confidence: 99%

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Chiral gauged WZNW models and heterotic string backgrounds

Sfetsos

Tseytlin

1994

Nuclear Physics B

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We construct new heterotic string backgrounds which are analogous to superstring solutions corresponding to coset models but are not simply the 'embeddings'of the latter. They are described by the (1,0) supersymmetric extension of the G/H chiral gauged WZNW models. The 'chiral gauged' WZNW action differs from the standard gauged WZNW action by the absence of the AĀ-term (and thus is not gauge invariant in the usual sense) but can still be expressed as a combination of WZNW actions and is conformal invariant. We explain a close relation between gauged and chiral gauged WZNW models and prove that in the case of the abelian H the G/H chiral gauged theory is equivalent to a particular (G × H)/H gauged WZNW theory. In contrast to the gauged WZNW model, the chiral gauged one admits a (1,0) supersymmetric extension which is consistent at the quantum level. Integrating out the 2d gauge field we determine the exact (in α ′ ) form of the couplings of the corresponding heterotic sigma model. While in the bosonic (superstring) cases all the fields depend (do not depend) non-trivially on α ′ here the metric receives only one O(α ′ ) correction while the antisymmetric tensor and the dilaton remain semiclassical. As a simplest example, we discuss the basic D = 3 solution which is the heterotic string counterpart of the 'black string' SL(2, R) × R/R background.

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Section: Introductioncontrasting

confidence: 39%

Section: Superfield Approachmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Chiral gauged WZNW models and heterotic string backgrounds

Sfetsos

Tseytlin

1994

Nuclear Physics B

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“…Our strategy is to isolate the gapless sector and construct the underlying conformal field theory. In doing so we keep both chiralities to avoid issues with gauge anomalies [21]. As we shall see, the final picture involves a chiral splitting with each chiral conformal field theory living at the opposite edges of the bulk.…”

Section: Edge Theorymentioning

confidence: 99%

“…In other words, the fermionic theory with constraints over the currents (3.43) is equivalent to the gauged-WZW theorỹ 21) in the sense that both of them produce the same correlation functions. Our next task is to show that this gauged-WZW theory follows naturally from a coset Chern-Simons-like bulk theory whenever we define it in the presence of a physical edge.…”

Section: Jhep10(2017)021mentioning

confidence: 99%

Effective theories for 2+1 dimensional non-Abelian topological spin liquids

Hernaski

Gomes

2017

J. High Energ. Phys.

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In this work we propose an effective low-energy theory for a large class of 2+1 dimensional non-Abelian topological spin liquids whose edge states are conformal degrees of freedom with central charges corresponding to the coset structure su(2) k ⊕ su(2) k ′ /su(2) k+k ′ . For particular values of k ′ it furnishes the series for unitary minimal and superconformal models. These gapped phases were recently suggested to be obtained from an array of one-dimensional coupled quantum wires. In doing so we provide an explicit relationship between two distinct approaches: quantum wires and Chern-Simons bulk theory. We firstly make a direct connection between the interacting quantum wires and the corresponding conformal field theory at the edges, which turns out to be given in terms of chiral gauged WZW models. Relying on the bulk-edge correspondence we are able to construct the underlying non-Abelian Chern-Simons effective field theory.

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A duality-like transformation in WZNW models inspired by dual riemannian globally symmetric spaces

Ghezelbash

1995

Theor Math Phys

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Chiral gauged Wess-Zumino-Witten theories and coset models in conformal field theory

Cited by 26 publications

References 52 publications

Chiral gauged WZNW models and heterotic string backgrounds

Chiral gauged WZNW models and heterotic string backgrounds

Effective theories for 2+1 dimensional non-Abelian topological spin liquids

A duality-like transformation in WZNW models inspired by dual riemannian globally symmetric spaces

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