Dressed relational observables imply quasi-de Sitter space corresponds to Type II_∞ von Neumann algebra with diverging trace in the gravity decoupling limit, unlike the finite-trace Type II_1 algebra for de Sitter space.
de Sabbata, P
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Super T T-bar deformations of N=(1,1) supersymmetric theories in superspace are interpreted as noncritical RNS superstring theory using super-Riemann surface concepts, with an additional proposal for 2D supergravity.
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Implication of dressed form of relational observable on von Neumann algebra
Dressed relational observables imply quasi-de Sitter space corresponds to Type II_∞ von Neumann algebra with diverging trace in the gravity decoupling limit, unlike the finite-trace Type II_1 algebra for de Sitter space.
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Super $T\bar{T}$ deformation and the RNS non-critical superstring
Super T T-bar deformations of N=(1,1) supersymmetric theories in superspace are interpreted as noncritical RNS superstring theory using super-Riemann surface concepts, with an additional proposal for 2D supergravity.