We prove the L p-boundedness, for p ∈ (1,∞), of the first order Riesz transform associated to the flow Laplacian on a homogeneous tree with the canonical flow measure. This result was previously proved to hold for p ∈ (1, 2] by Hebisch and Steger, but their approach does not extend to p > 2 as we make clear by proving a negative endpoint result for p = ∞ for such operator. We also consider a class of “horizontal Riesz transforms” corresponding to differentiation along horocycles, which inherit all the boundedness properties of the Riesz transform associated to the flow Laplacian, but for which we are also able to prove a weak type (1, 1) bound for the adjoint operators, in the spirit of the work by Gaudry and Sjögren in the continuous setting. The homogeneous tree with the canonical flow measure is a model case of a measuremetric space which is nondoubling, of exponential growth, does not satisfy the Cheeger isoperimetric inequality, and where the Laplacian does not have spectral gap.
Riesz transform for a flow Laplacian on homogeneous trees / Levi, Matteo; Martini, Alessio; Santagati, Federico; Tabacco, Anita Maria; Vallarino, Maria. - In: JOURNAL OF FOURIER ANALYSIS AND APPLICATIONS. - ISSN 1069-5869. - 29:2(2023), pp. 1-29. [10.1007/s00041-023-09999-x]
Riesz transform for a flow Laplacian on homogeneous trees
Matteo Levi;Alessio Martini;Federico Santagati;Anita Tabacco;Maria Vallarino
2023
Abstract
We prove the L p-boundedness, for p ∈ (1,∞), of the first order Riesz transform associated to the flow Laplacian on a homogeneous tree with the canonical flow measure. This result was previously proved to hold for p ∈ (1, 2] by Hebisch and Steger, but their approach does not extend to p > 2 as we make clear by proving a negative endpoint result for p = ∞ for such operator. We also consider a class of “horizontal Riesz transforms” corresponding to differentiation along horocycles, which inherit all the boundedness properties of the Riesz transform associated to the flow Laplacian, but for which we are also able to prove a weak type (1, 1) bound for the adjoint operators, in the spirit of the work by Gaudry and Sjögren in the continuous setting. The homogeneous tree with the canonical flow measure is a model case of a measuremetric space which is nondoubling, of exponential growth, does not satisfy the Cheeger isoperimetric inequality, and where the Laplacian does not have spectral gap.File | Dimensione | Formato | |
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https://hdl.handle.net/11583/2976166