Pole-skipping in two-dimensional de Sitter spacetime and double-scaled SYK model

Abstract

We develop the pole-skipping structure in de Sitter (dS) spacetime and find that their leading frequencies satisfy the relation ωdS=i2π TdS(1-s), where TdS=1/2π L and s denotes spin. In the two-dimensional dS spacetime, the pole-skipping points near the cosmic horizon r=L for the scalar field of spin-0 and the fermionic field of spin-12 correspond one-to-one with those in the classical limit as λ→ 0 in double-scaled Sachdev-Ye-Kitaev model when the temperature is infinite (DSSYK∞). This provides a numerical correspondence between quantum gravity in the static patch of two-dimensional dS spacetime and a one-dimensional quantum system, which we consider as a realization of the DS/dS correspondence.