English

Self-dual gravity from higher-spin theory

High Energy Physics - Theory 2026-05-13 v2

Abstract

Higher-spin symmetry is known to mix lower-spin fields with higher-spin fields, creating a complex interaction picture where no closed finite field sector is expected to exist for dimensions greater than three. By studying the self-dual part of higher-spin interaction vertices in four dimensions, we show that gauge fields of spins greater than two can be consistently set to zero. In this case, the fields with helicities 2λ0-2\leq\lambda\leq 0 form a closed sub-sector and also act as sources for positive helicities. For these lower spin fields, we identify their equations of motion. In particular, we show that self-dual gravity with a cosmological constant emerges as a unique rigid part of higher-spin interactions. Notably, its equations have a form that incorporates the Moyal star product, which is essential for generating the higher-spin algebra. Therefore, we demonstrate that self-dual gravity can be derived from higher-spin symmetries.

Keywords

Cite

@article{arxiv.2603.21822,
  title  = {Self-dual gravity from higher-spin theory},
  author = {V. E. Didenko and A. V. Korybut},
  journal= {arXiv preprint arXiv:2603.21822},
  year   = {2026}
}

Comments

15 pages v2: acknowledgement added

R2 v1 2026-07-01T11:33:05.644Z