Bilinear embedding for divergence-form operators with first-order terms and negative potentials
摘要
This article establishes a bilinear embedding for second-order divergence-form operators with complex coefficients, characterized by the simultaneous presence of first-order terms and negative potentials. This work provides a further development of the theory initiated by Carbonaro and Dragi\v{c}evi\'c for the homogeneous case, and recently extended by the second author to cases where first-order terms or negative potentials were treated in isolation. We work in the general setting of arbitrary open subsets of under Dirichlet, Neumann, or mixed boundary conditions. Our main contribution is the introduction of a unified notion of generalized -ellipticity that extends all its predecessors and serves as the natural condition for the bilinear inequality. Methodologically, we overcome the rigidity of the Bellman-heat method on arbitrary open subsets by introducing a novel sequence-based approach that unifies and simplifies the previous techniques. As fundamental applications, we prove the boundedness of the -calculus on and establish -maximal regularity. Moreover, we show that this generalized -ellipticity provides a sufficient condition for the -contractivity and -analyticity of the generated semigroup.
引用
@article{arxiv.2605.14699,
title = {Bilinear embedding for divergence-form operators with first-order terms and negative potentials},
author = {Lorenzo Luciano Morelato and Andrea Poggio},
journal= {arXiv preprint arXiv:2605.14699},
year = {2026}
}
备注
56 pages