Amr Ahmadain (University of Cambridge)

Title: The off-shell sphere partition function, (Generalized) Tseytlin’s prescriptions and black hole entropy

Abstract: The worldsheet theory of string backgrounds is a CFT with zero central charge. This is the definition of on-shell string theory. In off-shell string theory, on the other hand, conformal invariance on the worldsheet is explicitly broken, and the worldsheet theory is therefore a QFT rather than a CFT, with a UV cutoff.

In this talk, I will explain Tseytlin’s prescriptions for constructing classical (tree-level) off-shell effective actions and provide a general proof, using conformal perturbation theory, that it gives the correct equations of motion, to all orders in perturbation theory and α′. I will also show how Tseytlin’s prescriptions are equivalent to quotienting out by the gauge orbits of a regulated moduli space with “n” operator insertions. I will also explain how Tseytlin’s prescriptions encode the correct prescription for the Lorentzian S-matrix in which case we obtain Feynman’s $i\varepsilon$ prescription for the internal poles. Finally, I will explain how the classical off-shell string action was used by Susskind and Uglum to calculate the tree-level black hole entropy on a conical manifold in Rindler background.

Time permitting, I will present very recent upcoming work on a closed-form expression for a generalized Tseytlin (GT) operator that eliminates all spurious tadpoles from higher curvature couplings on the worldsheet. This allows us to study its action on correlations functions of scalar primaries and descendants with arbitrary conformal dimensions.