Bounded<i>H</i><sub>∞</sub>-Calculus for Differential Operators on Conic Manifolds with Boundary

Coriasco, Sandro; Schrohe, Elmar; Seiler, Jörg

doi:10.1080/03605300600910290

Cited by 21 publications

(19 citation statements)

References 21 publications

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“…See also [39]. Also, see [47] for an extension of the above results to L p -spaces, and [10] for some applications to non-linear evolution equations.…”

Section: A Spectrally Invariant Algebramentioning

confidence: 99%

Boundary value problems and layer potentials on manifolds with cylindrical ends

Mitrea

Nistor

2007

Czech Math J

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Abstract. We extend the method of layer potentials to manifolds with boundary and cylindrical ends. To obtain this extension along the classical lines, we have to deal with several technical difficulties due to the noncompactness of the boundary, which prevents us from using the standard characterization of Fredholm and compact (pseudo-)differential operators between Sobolev spaces. Our approach, which involves the study of layer potentials depending on a parameter on compact manifolds as an intermediate step, yields the invertibility of the relevant boundary integral operators in the global, noncompact setting, which is rather unexpected. As an application, we prove the well-posedness of the non-homogeneous Dirichlet problem on manifolds with boundary and cylindrical ends. We also prove the existence of the Dirichletto-Neumann map, which we show to be a pseudodifferential operator in the calculus of pseudodifferential operators that are "almost translation invariant at infinity," a calculus that is closely related to Melrose's b-calculus [29,28], which we study in this paper. The proof of the convergence of the layer potentials and of the existence of the Dirichlet-to-Neumann map are based on a good understanding of resolvents of elliptic operators that are translation invariant at infinity.

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“…See also [39]. Also, see [47] for an extension of the above results to L p -spaces, and [10] for some applications to non-linear evolution equations.…”

Section: A Spectrally Invariant Algebramentioning

confidence: 99%

Boundary value problems and layer potentials on manifolds with cylindrical ends

Mitrea

Nistor

2007

Czech Math J

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“…This shows the closedness of A, 3 as well as the desired norm estimate for the resolvent of A (with c possibly enlarged).…”

Section: Proof Of Propositionmentioning

confidence: 99%

“…The paper [4] extends the results of [2] to domains with boundary. In [3] differential operators on conic manifolds with boundary are investigated.…”

Section: Introductionmentioning

confidence: 99%

Bounded $H_\infty $-calculus for pseudodifferential operators and applications to the Dirichlet-Neumann operator

Escher

Seiler

2008

Trans. Amer. Math. Soc.

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Abstract. Operators of the form A = a(x, D) + K with a pseudodifferential symbol a(x, ξ) belonging to the Hörmander class S m 1,δ , m > 0, 0 ≤ δ < 1, and certain perturbations K are shown to possess a bounded H ∞ -calculus in Besov-Triebel-Lizorkin and certain subspaces of Hölder spaces, provided a is suitably elliptic. Applications concern pseudodifferential operators with mildly regular symbols and operators on manifolds of low regularity. An example is the Dirichlet-Neumann operator for a compact domain with C 1+r -boundary.

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“…Boutet de Monvel's calculus can also be exploited to demonstrate existence of bounded imaginary powers and even of a bounded H ∞ -calculus, cf. Duong [7], Abels [1] and Coriasco, Schrohe, Seiler [4] for example; as it turns out, the strategy of proof we use in the present work is closely related to that of Abels [1]. On one hand, bounded H ∞ -calculus is stronger than R-boundedness, on the other hand the concept of R-boundedness applies to operator-families more general than the resolvent of a fixed operator.…”

Section: Introductionmentioning

confidence: 87%

Maximal $$L_{p}$$ L p -regularity of non-local boundary value problems

Denk

Seiler

2014

Monatsh Math

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We investigate the R-boundedness of operator families belonging to the Boutet de Monvel calculus. In particular, we show that weakly and strongly parameter-dependent Green operators of nonpositive order are Rbounded. Such operators appear as resolvents of non-local (pseudodifferential) boundary value problems. As a consequence, we obtain maximal Lp-regularity for such boundary value problems. An example is given by the reduced Stokes equation in waveguides.

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BoundedH_∞-Calculus for Differential Operators on Conic Manifolds with Boundary

Cited by 21 publications

References 21 publications

Boundary value problems and layer potentials on manifolds with cylindrical ends

Boundary value problems and layer potentials on manifolds with cylindrical ends

Bounded $H_\infty $-calculus for pseudodifferential operators and applications to the Dirichlet-Neumann operator

Maximal $$L_{p}$$ L p -regularity of non-local boundary value problems

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BoundedH∞-Calculus for Differential Operators on Conic Manifolds with Boundary

Cited by 21 publications

References 21 publications

Boundary value problems and layer potentials on manifolds with cylindrical ends

Boundary value problems and layer potentials on manifolds with cylindrical ends

Bounded $H_\infty $-calculus for pseudodifferential operators and applications to the Dirichlet-Neumann operator

Maximal $$L_{p}$$ L p -regularity of non-local boundary value problems

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Product

Resources

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BoundedH_∞-Calculus for Differential Operators on Conic Manifolds with Boundary