We give an extension of Rubio de Francia's extrapolation theorem for functions taking values in UMD Banach function spaces to the multilinear limited range setting. In particular we show how boundedness of an m-(sub)linear operatorfor a certain class of Muckenhoupt weights yields an extension of the operator to Bochner spaces L p (w p ; X) for a wide class of Banach function spaces X, which includes certain Lebesgue, Lorentz and Orlicz spaces.We apply the extrapolation result to various operators, which yields new vector-valued bounds. Our examples include the bilinear Hilbert transform, certain Fourier multipliers and various operators satisfying sparse domination results.2010 Mathematics Subject Classification. Primary: 42B25; Secondary: 42B15, 46E30.Vector-valued extensions of the extrapolation theory have also been considered. Through an argument using Fubini's Theorem, the initial estimate (1.1) immediately implies not only the estimate (1.2) for all p ∈ (1, ∞), but also for extensions of the operator T to functions taking values in the sequence spaces ℓ s or more generally Lebesgue spaces L s for s ∈ (1, ∞). Moreover, Rubio de Francia showed in [60, Theorem 5] that one can take this even further. Indeed, this result states that assuming (1.1) holds for some p 0 ∈ (1, ∞) and for all weights w ∈ A p 0 , then for each Banach function space X with the UMD property, T extends to an operator T on the Bochner space L p (X) which satisfiesfor all p ∈ (1, ∞) and all f ∈ L p (X) . Recently, it was shown by Amenta, Veraar, and the first author in [2] that given p − ∈ (0, ∞), if (1.1) holds for p 0 ∈ (p − , ∞) and all weights w ∈ A p 0 /p − , then for each Banach function space X such that X p − has the UMD property, T extends to an operator T on the Bochner space L p (w; X) and satisfiesfor all p ∈ (p − , ∞), all weights w ∈ A p/p − and all f ∈ L p (w; X). Here X p − is the p − -concavification of X, see Section 2 for the definition.Vector-valued estimates in harmonic analysis have been actively developed in the past decades. Important for the mentioned vector-valued extrapolation are the equivalence of the boundedness of the vector-valued Hilbert transform on L p (X) and the UMD property of X for a Banach space X (see [9,13]) and the fact that for a Banach function space X the UMD property implies the boundedness of the lattice Hardy-Littlewood maximal operator on L p (X) (see [10,61]). For recent results in vector-valued harmonic analysis in UMD Banach function spaces, see for example [8,25,36,41,66].
