153 research outputs found

    Conformal Blocks Beyond the Semi-Classical Limit

    Get PDF
    Black hole microstates and their approximate thermodynamic properties can be studied using heavy-light correlation functions in AdS/CFT. Universal features of these correlators can be extracted from the Virasoro conformal blocks in CFT2, which encapsulate quantum gravitational effects in AdS3. At infinite central charge c, the Virasoro vacuum block provides an avatar of the black hole information paradox in the form of periodic Euclidean-time singularities that must be resolved at finite c. We compute Virasoro blocks in the heavy-light, large c limit, extending our previous results by determining perturbative 1/c corrections. We obtain explicit closed-form expressions for both the `semi-classical' hL2/c2h_L^2 / c^2 and `quantum' hL/c2h_L / c^2 corrections to the vacuum block, and we provide integral formulas for general Virasoro blocks. We comment on the interpretation of our results for thermodynamics, discussing how monodromies in Euclidean time can arise from AdS calculations using `geodesic Witten diagrams'. We expect that only non-perturbative corrections in 1/c can resolve the singularities associated with the information paradox.Comment: 24+7 pages, 5 figures; v2 fixed typo in eq 2.22, added refs; v3 fixed typo

    A Quantum Correction To Chaos

    Full text link
    We use results on Virasoro conformal blocks to study chaotic dynamics in CFT2_2 at large central charge c. The Lyapunov exponent Ξ»L\lambda_L, which is a diagnostic for the early onset of chaos, receives 1/c1/c corrections that may be interpreted as Ξ»L=2πβ(1+12c)\lambda_L = \frac{2 \pi}{\beta} \left( 1 + \frac{12}{c} \right). However, out of time order correlators receive other equally important 1/c1/c suppressed contributions that do not have such a simple interpretation. We revisit the proof of a bound on Ξ»L\lambda_L that emerges at large cc, focusing on CFT2_2 and explaining why our results do not conflict with the analysis leading to the bound. We also comment on relationships between chaos, scattering, causality, and bulk locality.Comment: 22+6 pages, 6 figure

    On the Late-Time Behavior of Virasoro Blocks and a Classification of Semiclassical Saddles

    Full text link
    Recent work has demonstrated that black hole thermodynamics and information loss/restoration in AdS3_3/CFT2_2 can be derived almost entirely from the behavior of the Virasoro conformal blocks at large central charge, with relatively little dependence on the precise details of the CFT spectrum or OPE coefficients. Here, we elaborate on the non-perturbative behavior of Virasoro blocks by classifying all `saddles' that can contribute for arbitrary values of external and internal operator dimensions in the semiclassical large central charge limit. The leading saddles, which determine the naive semiclassical behavior of the Virasoro blocks, all decay exponentially at late times, and at a rate that is independent of internal operator dimensions. Consequently, the semiclassical contribution of high-energy states does not resolve a well-known version of the information loss problem in AdS3_3. However, we identify two infinite classes of sub-leading saddles, and one of these classes does not decay at late times.Comment: 38+10 pages, 17 figures; v2: added refs, comment

    Constraints on Flavored 2d CFT Partition Functions

    Full text link
    We study the implications of modular invariance on 2d CFT partition functions with abelian or non-abelian currents when chemical potentials for the charges are turned on, i.e. when the partition functions are "flavored". We begin with a new proof of the transformation law for the modular transformation of such partition functions. Then we proceed to apply modular bootstrap techniques to constrain the spectrum of charged states in the theory. We improve previous upper bounds on the state with the greatest "mass-to-charge" ratio in such theories, as well as upper bounds on the weight of the lightest charged state and the charge of the weakest charged state in the theory. We apply the extremal functional method to theories that saturate such bounds, and in several cases we find the resulting prediction for the occupation numbers are precisely integers. Because such theories sometimes do not saturate a bound on the full space of states but do saturate a bound in the neutral sector of states, we find that adding flavor allows the extremal functional method to solve for some partition functions that would not be accessible to it otherwise.Comment: 45 pages, 16 Figures v3: typos corrected, expanded appendix on numeric implementatio

    (Extra)Ordinary Gauge Mediation

    Get PDF
    We study models of "(extra)ordinary gauge mediation," which consist of taking ordinary gauge mediation and extending the messenger superpotential to include all renormalizable couplings consistent with SM gauge invariance and an R-symmetry. We classify all such models and find that their phenomenology can differ significantly from that of ordinary gauge mediation. Some highlights include: arbitrary modifications of the squark/slepton mass relations, small mu and Higgsino NLSP's, and the possibility of having fewer than one effective messenger. We also show how these models lead naturally to extremely simple examples of direct gauge mediation, where SUSY and R-symmetry breaking occur not in a hidden sector, but due to the dynamics of the messenger sector itself.Comment: 50 pages, 11 figure
    • …
    corecore