High Energy Theory Seminar
High-Energy Conformal Bootstrap and Tauberian Theory
We analyze modular invariance drawing inspiration from tauberian
theorems. Given a modular invariant partition function with a positive
spectral density, we derive lower and upper bounds on the number of
operators within a given energy interval. They are most revealing at high
energies. In this limit we rigorously derive the Cardy formula for the
microcanonical entropy together with optimal error estimates for various
widths of the averaging energy shell. Finally, we identify a new universal
contribution to the microcanonical entropy controlled by the central
charge and the width of the shell.
theorems. Given a modular invariant partition function with a positive
spectral density, we derive lower and upper bounds on the number of
operators within a given energy interval. They are most revealing at high
energies. In this limit we rigorously derive the Cardy formula for the
microcanonical entropy together with optimal error estimates for various
widths of the averaging energy shell. Finally, we identify a new universal
contribution to the microcanonical entropy controlled by the central
charge and the width of the shell.
Date & Time
November 01, 2019 | 1:45pm – 3:00pm
Location
Bloomberg Lecture HallSpeakers
Affiliation
Member, School of Natural Sciences, IAS