On the Uniqueness of Diffeomorphism Symmetry in Conformal Field Theory

Carpi, Sebastiano; Weiner, Mihály

doi:10.1007/s00220-005-1335-4

Cited by 43 publications

(98 citation statements)

References 23 publications

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“…[8,13]. Moreover from the relations [G −r , G r ] = 2L 0 + c 3 (r 2 − 1 4 ), we find the energy bounds…”

Section: Super-virasoro Netsmentioning

confidence: 65%

“…By the above lemma, the representation of the diffeomorphism group belongs to the Bose subnet, so we may apply the uniqueness result in the local case in [13] and get the following:…”

Section: Fermi Conformal Nets On Smentioning

confidence: 99%

“…With E = (1 + Γ)/2 the orthogonal projection onto A b Ω, clearly U | EH is the projective unitary representation of Diff(S 1 ) associated with A b , unique by [13,56]. As Ω is separating for the local algebras, U (g)E determines U (g) if g ∈ Diff (2) I (S 1 ) for any interval I ∈ I.…”

Section: Fermi Conformal Nets On Smentioning

confidence: 99%

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Structure and Classification of Superconformal Nets

Carpi

Kawahigashi

Longo

2008

Ann. Henri Poincaré

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We study the general structure of Fermi conformal nets of von Neumann algebras on S 1 , consider a class of topological representations, the general representations, that we characterize as Neveu-Schwarz or Ramond representations, in particular a Jones index can be associated with each of them. We then consider a supersymmetric general representation associated with a Fermi modular net and give a formula involving the Fredholm index of the supercharge operator and the Jones index. We then consider the net associated with the super-Virasoro algebra and discuss its structure. If the central charge c belongs to the discrete series, this net is modular by the work of F. Xu and we get an example where our setting is verified by considering the Ramond irreducible representation with lowest weight c/24. We classify all the irreducible Fermi extensions of any super-Virasoro net in the discrete series, thus providing a classification of all superconformal nets with central charge less than 3/2.

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“…[8,13]. Moreover from the relations [G −r , G r ] = 2L 0 + c 3 (r 2 − 1 4 ), we find the energy bounds…”

Section: Super-virasoro Netsmentioning

confidence: 65%

“…By the above lemma, the representation of the diffeomorphism group belongs to the Bose subnet, so we may apply the uniqueness result in the local case in [13] and get the following:…”

Section: Fermi Conformal Nets On Smentioning

confidence: 99%

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Structure and Classification of Superconformal Nets

Carpi

Kawahigashi

Longo

2008

Ann. Henri Poincaré

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“…By applying a general theorem by Wiesbrock, A is a Möbius covariant net (cf. [50,37,38,47]); moreover A is expected to be diffeomorphism covariant and the diffeomorphism symmetry uniquely determined (see [12]); for example this is the case when the quantum field is free, as A is then isomorphic to the net associated with the U(1)-current algebra, see [22] (this fact has been noticed again in [41]). We thus assume A to be diffeomorphism covariant.…”

Section: On Black Hole Entropymentioning

confidence: 99%

“…There A is a local conformal net canonically arising on the horizon. According to the general analysis (by using Wiesbrock's theorem) A is a Möbius covariant net, but A is expected to be diffeomorphism covariant too [12]; for example this is the case when the quantum field is free, as A is then isomorphic to the net associated with the U(1)-current algebra [22] (see also [41]). The incremental free energy dF by adding the charge ρ and removing the charge σ (in the Hartle-Hawking state) in [36] or, more generally, its symmetrization, see [38,Thm.…”

Section: The Incremental Free Energy In [36] (Increment Of the First mentioning

confidence: 99%

Noncommutative Spectral Invariants and Black Hole Entropy

Kawahigashi

Longo

2005

Commun. Math. Phys.

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We consider an intrinsic entropy associated with a local conformal net A by the coefficients in the expansion of the logarithm of the trace of the "heat kernel" semigroup. In analogy with Weyl theorem on the asymptotic density distribution of the Laplacian eigenvalues, passing to a quantum system with infinitely many degrees of freedom, we regard these coefficients as noncommutative geometric invariants. Under a natural modularity assumption, the leading term of the entropy (noncommutative area) is proportional to the central charge c, the first order correction (noncommutative Euler characteristic) is proportional to log µ A , where µ A is the global index of A, and the second spectral invariant is again proportional to c.We give a further general method to define a mean entropy by considering conformal symmetries that preserve a discretization of S 1 and we get the same value proportional to c.We then make the corresponding analysis with the proper Hamiltonian associated to an interval. We find here, in complete generality, a proper mean entropy proportional to log µ A with a first order correction defined by means of the relative entropy associated with canonical states. * Supported in part by JSPS. † Supported in part by GNAMPA and MIUR. 1By considering a class of black holes with an associated conformal quantum field theory on the horizon, and relying on arguments in the literature, we indicate a possible way to link the noncommutative area with the BekensteinHawking classical area description of entropy.

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Some Computations in the Cyclic Permutations of Completely Rational Nets

2006

Commun. Math. Phys.

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In this paper we calculate certain chiral quantities from the cyclic permutation orbifold of a general completely rational net. We determine the fusion of a fundamental soliton, and by suitably modified arguments of A. Coste , T. Gannon and especially P. Bantay to our setting we are able to prove a number of arithmetic properties including congruence subgroup properties for S, T matrices of a completely rational net defined by K.-H. Rehren . 2000MSC:81R15, 17B69. * Supported in part by NSF.

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On the Uniqueness of Diffeomorphism Symmetry in Conformal Field Theory

Cited by 43 publications

References 23 publications

Structure and Classification of Superconformal Nets

Structure and Classification of Superconformal Nets

Noncommutative Spectral Invariants and Black Hole Entropy

Some Computations in the Cyclic Permutations of Completely Rational Nets

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