New F4 invariants in five-dimensional supergravity
Abstract
We consider four-derivative superinvariants of five-dimensional N=2 supergravity coupled to nv 2 vector multiplets, which we obtain from both the superconformal tensor calculus approach and dimensional reduction. For the minimal case, with no vector multiplets, it is known that there is a unique four-derivative superinvariant. However, for the case of one vector multiplet, after field redefinitions, we find that there are three independent superinvariants, one of which is a vector superinvariant that does not contain any curvatures and takes the form of a supersymmetrization of F4. Similarly, for the two vector multiplet case, corresponding to the STU model, we find three gravitational superinvariants and two F4-type vector superinvariants. Moreover, we find that these vector superinvariants do not affect the two- and three-charge static BPS black hole solutions. We further consider the rigid limit to N=2 super-Yang-Mills and use this to conjecture a family of vector superinvariants for five-dimensional N=2 supergravity coupled to an arbitrary number of vector multiplets.
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