English

Some More Sparse Bounds for Rough and Smooth Pseudodifferential Operators

Classical Analysis and ODEs 2026-04-22 v2 Analysis of PDEs

Abstract

Beltran \& Cladek~\cite{BC} use LrL^r to LsL^s bounds to prove sparse form bounds for pseudodifferential operators with H\"ormander symbols in Sρ,δmS^m_{\rho,\delta} up to, but not including, the sharp end-point in decay mm. We further develop their technique, obtaining pointwise sparse bounds for rough pseudodifferential operators that are merely measurable in their spatial variables and an alternative proof of their results which avoids proving geometrically decaying sparse bounds. We also provide sufficient conditions for sparse form bounds to hold and use these to reprove know sparse bounds for pseudodifferential operators with symbols in S1,δ0S^0_{1,\delta} for δ<1\delta < 1.

Keywords

Cite

@article{arxiv.2507.08409,
  title  = {Some More Sparse Bounds for Rough and Smooth Pseudodifferential Operators},
  author = {Solange Mukeshimana and David Rule},
  journal= {arXiv preprint arXiv:2507.08409},
  year   = {2026}
}

Comments

23 pages. Definitions have been moved to the introduction. What was Proposition 1.5 is now Proposition 2.2. It has been modified slightly in order to be applied (in what is now Theorem 4.3) in a manner more relevant to the rest of the paper, and so the previous application (which was Theorem 1.6) has been removed. The new sharp function bounds are now contained in Theorem 1.10

R2 v1 2026-07-01T03:56:12.451Z