CANCELLED
Theory HEP Seminar
Sphere packing, quantum gravity and extremal functionals
Dalimil Mazáč
YITP Stony Brook
Ultraviolet consistency of quantum gravitational theories requires the
presence of new states at or below the Planck scale. In the setting of
AdS3/CFT2, this statement follows from the modular bootstrap. It has been a
long-standing problem to improve the best upper bound on the mass of the
lightest non-graviton state in this context. I will explain how this can be
done using the "analytic extremal functionals", which were originally
developed for the four-point bootstrap in 1D. The new analytic upper bound
on the dimension of the lightest nontrivial primary is c/8.503 at large c
(central charge) -- an improvement over the previous best bound c/6 due to
Hellerman.
I will also explain that the sphere packing problem of Euclidean geometry
can be studied using a version of the modular bootstrap. The analytic
functionals apply also in this context. They lead directly to the recent
solution of the sphere-packing problem in 8 and 24 dimensions due to
Viazovska and Cohn+Kumar+Miller+Radchenko+Viazovska. The talk will be based
on arXiv:1905.01319.
Wednesday, May 29th 2019, 12:30
Ernest Rutherford Physics Building, room 326
|