Free-field construction of Carrollian WN-algebras

Abstract

We study Carrollian contractions of WN-algebras from a free-field perspective. Using a contraction of the Miura transformation, we obtain explicit free-field realizations of the resulting Carrollian WN-algebras. At the classical level, they are isomorphic to the Galilean WN-algebras. In the quantum case, we distinguish between two Carrollian constructions: a flipped Carrollian contraction, where the time direction is reversed in one sector, and a symmetric contraction. The flipped construction yields a quantum algebra isomorphic to the Galilean one, whereas the symmetric construction produces a distinct quantum Carrollian WN-algebra whose basic structure constants are identical to those of the classical Carrollian WN-algebra. These algebras provide a natural framework for studying extended symmetries in Carrollian conformal field theories, motivated by recent developments in flat space holography. Our construction provides tools for developing the representation theory of Carrollian (and Galilean) WN-algebras using free-field techniques.