English

Towards a Nicolai map for supergravity

High Energy Physics - Theory 2026-02-23 v2

Abstract

We investigate the possibility of a Nicolai map for minimal supergravity in four dimensions. Such a map would allow for the computation of quantum supergravity correlation functions in terms of flat-space correlators in an effective nonlocal bosonic theory with the help of a nonlinear field transformation, the inverse Nicolai map. Such a map is guaranteed for off-shell global supersymmetry, but local supersymmetry presents at least three obstacles for the construction. Their effects are analyzed in detail, in an attempt to set up a Nicolai map to leading order in the gravitational coupling. We find indications that the conformal factor of the metric obstructs the off-shell construction, suggesting that the unimodular variant of supergravity may do better. The on-shell supersymmetry approach, successful for super-Yang-Mills theory in its critical dimensions, also fails, because the graviton self-interaction cannot be written as a supervariation. Nevertheless, by brute force we obtain a four-parameter first-order Nicolai map fulfilling the free-action condition. For the acid test of determinant matching, however, one needs to push the general ansatz and the perturbative expansion to the second order and to the quantum level.

Keywords

Cite

@article{arxiv.2509.17973,
  title  = {Towards a Nicolai map for supergravity},
  author = {Federico Arrighi and Saurish Khandelwal and Olaf Lechtenfeld},
  journal= {arXiv preprint arXiv:2509.17973},
  year   = {2026}
}

Comments

1+15 pages; v2: discussion of determinant matching added to the end of Section 7, matches published version

R2 v1 2026-07-01T05:49:56.133Z