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Thermalization in large-N CFTs

Robin Karlsson, Andrei Parnachev, Petar Tadić

2021Journal of High Energy Physics29 citationsDOIOpen Access PDF

Abstract

Abstract In d -dimensional CFTs with a large number of degrees of freedom an important set of operators consists of the stress tensor and its products, multi stress tensors. Thermalization of such operators, the equality between their expectation values in heavy states and at finite temperature, is equivalent to a universal behavior of their OPE coefficients with a pair of identical heavy operators. We verify this behavior in a number of examples which include holographic and free CFTs and provide a bootstrap argument for the general case. In a free CFT we check the thermalization of multi stress tensor operators directly and also confirm the equality between the contributions of multi stress tensors to heavy-heavy-light-light correlators and to the corresponding thermal light-light two-point functions by disentangling the contributions of other light operators. Unlike multi stress tensors, these light operators violate the Eigenstate Thermalization Hypothesis and do not thermalize.

Topics & Concepts

PhysicsThermalisationDegrees of freedom (physics and chemistry)Cauchy stress tensorTensor (intrinsic definition)Mathematical physicsTheoretical physicsEigenvalues and eigenvectorsZero modeStress (linguistics)Quantum mechanicsThermalOperator (biology)Set (abstract data type)Quantum field theoryBlack Holes and Theoretical PhysicsQuantum many-body systemsThermal properties of materials
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