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Riesz transform and fractional integral operators generated by non-degenerate elliptic differential operators. (English) Zbl 1440.42110

Summary: The Morrey boundedness is proved for the Riesz transform and the inverse operator of the non-degenerate elliptic differential operator of divergence form generated by a vector-function in \((L^\infty)^{n^2}\), and for the inverse operator of the Schrödinger operators whose non-negative potentials satisfy a certain integrability condition. In this note, our result is not obtained directly from the estimates of integral formula, which reflects the fact that the solution of the Kato conjecture did not use any integral expression of the operators. One of the important tools in the proof is the decomposition of the functions in Morrey spaces based on the elliptic differential operators in question. In some special cases where the integral kernel comes into play, the boundedness property of the Littlewood-Paley operator was already obtained by R. Gong [J. Math. Sci. Adv. Appl. 16, No. 1–2, 47–59 (2012; Zbl 1261.42013)]. So, the main novelties of this paper are the decomposition results associated with elliptic differential operators and the result in the case where the explicit formula of the integral kernel of the heat semigroup is unavailable.

MSC:

42B35 Function spaces arising in harmonic analysis
42B20 Singular and oscillatory integrals (Calderón-Zygmund, etc.)
35J15 Second-order elliptic equations
47F05 General theory of partial differential operators
47B44 Linear accretive operators, dissipative operators, etc.

Citations:

Zbl 1261.42013
Full Text: DOI