Holographic non-computers
Abstract
We introduce the notion of holographic non-computer as a system which exhibits parametrically large delays in the growth of complexity, as calculated within the Complexity-Action proposal. Some known examples of this behavior include extremal black holes and near-extremal hyperbolic black holes. Generic black holes in higher-dimensional gravity also show non-computing features. Within the expansion of General Relativity, we show that large- scalings which capture the qualitative features of complexity, such as a linear growth regime and a plateau at exponentially long times, also exhibit an initial computational delay proportional to . While consistent for large AdS black holes, the required `non-computing' scalings are incompatible with thermodynamic stability for Schwarzschild black holes, unless they are tightly caged.
Cite
@article{arxiv.1710.06415,
title = {Holographic non-computers},
author = {Jose L. F. Barbon and Javier Martin-Garcia},
journal= {arXiv preprint arXiv:1710.06415},
year = {2018}
}
Comments
23 pages, 7 figures. V3: References added. Figures updated. New discussion of small black holes in the canonical ensemble