Fortuity in SYK Models

TL;DR

This paper investigates the fortuity phenomenon in supersymmetric SYK models, revealing a connection between fortuitous states, charge concentration, and chaos, with implications for understanding supersymmetric black holes.

Contribution

It introduces the supercharge chaos conjecture and explores the microscopic properties of fortuitous states in supersymmetric SYK models.

Findings

Fortuitous states are concentrated in specific charge sectors.

Supercharge chaos likely universal in holographic CFTs near fortuitous states.

Models with both fortuitous and monotonous states show differing chaos levels.

Abstract

We study the fortuity phenomenon in supersymmetric Sachdev-Ye-Kitaev (SYK) models. For generic choices of couplings, all the BPS states in the $\mathcal{N}=2$ SUSY SYK model are fortuitous. The SYK models reveal an intimate connection between fortuity and the Schwarzian description of supersymmetric black holes, reflected in a sharp feature of $R$-charge concentration - microscopically, all the fortuitous states are concentrated in particular charge sectors. We propose that both $R$-charge concentration and the random matrix behavior near the BPS states are key properties of a generic $q$-local supercharge and formulate these as a supercharge chaos conjecture. We expect supercharge chaos to hold universally for supercharges in holographic CFTs near their fortuitous states, potentially providing a microscopic interpretation for the charge constraints of supersymmetric black holes. We also construct SYK models that contain both fortuitous states and monotonous states and contrast their properties, providing further evidence that monotonous states are less chaotic than fortuitous states.