Abelian duality is realized naturally by combining differential cohomology and locally covariant quantum field theory. This leads to a C ∗-algebra of observables, which encompasses the simultaneous discretization of both magnetic and electric fluxes. We discuss the assignment of physically well-behaved states on this algebra and the properties of the associated GNS triple. We show that the algebra of observables factorizes as a suitable tensor product of three C ∗-algebras: the first factor encodes dynamical information, while the other two capture topological data corresponding to electric and magnetic fluxes. On the former factor and in the case of ultra-static globally hyperbolic spacetimes with compact Cauchy surfaces, we exhibit a state whose two-point correlation function has the same singular structure of a Hadamard state. Specifying suitable counterparts also on the topological factors, we obtain a state for the full theory, ultimately implementing Abelian duality transformations as Hilbert space isomorphisms.
Hadamard states for quantum Abelian duality / M. Benini, M. Capoferri, C. Dappiaggi. - In: ANNALES HENRI POINCARE'. - ISSN 1424-0637. - 18:10(2017), pp. 3325-3370. [10.1007/s00023-017-0593-y]
Hadamard states for quantum Abelian duality
M. CapoferriSecondo
;
2017
Abstract
Abelian duality is realized naturally by combining differential cohomology and locally covariant quantum field theory. This leads to a C ∗-algebra of observables, which encompasses the simultaneous discretization of both magnetic and electric fluxes. We discuss the assignment of physically well-behaved states on this algebra and the properties of the associated GNS triple. We show that the algebra of observables factorizes as a suitable tensor product of three C ∗-algebras: the first factor encodes dynamical information, while the other two capture topological data corresponding to electric and magnetic fluxes. On the former factor and in the case of ultra-static globally hyperbolic spacetimes with compact Cauchy surfaces, we exhibit a state whose two-point correlation function has the same singular structure of a Hadamard state. Specifying suitable counterparts also on the topological factors, we obtain a state for the full theory, ultimately implementing Abelian duality transformations as Hilbert space isomorphisms.
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