Chern-Simons-Ghost Theories and de Sitter Space

Abstract

We explore Chern-Simons theories coupled to fundamental ghost-like matter in the large N limit at 't Hooft coupling λ. These theories have been conjectured to be holographically dual to parity-violating, asymptotically dS4 universes with a tower of light higher-spin fields. On R3, to all orders in large-N perturbation theory, we show that Chern-Simons-ghost theories are related to ordinary Chern-Simons-matter theories by mapping N → - N and keeping λ fixed. Consequently, the bosonization duality of ordinary Chern-Simons-matter theories extends to a bosonization duality of Chern-Simons-ghost theories on R3. On S1 × S2, in the small-S1 limit, neither N → -N nor bosonization hold, as we show by extensively studying large-N saddles of the theories with both ghost and ordinary matter. The partition functions we compute along the way can be viewed as pieces of the late-time Hartle-Hawking wavefunction for the bulk dS4 gravity theories.