Intrinsic Characterization of Manifold-Valued Generalized Functions

Michael Kunzinger; Roland Steinbauer; James A. Vickers

doi:10.1112/S0024611503014229

Abstract

The concept of generalized functions taking values in a differentiable manifold is extended to a functorial theory. We establish several characterization results which allow a global intrinsic formulation both of the theory of manifold-valued generalized functions and of generalized vector bundle homomorphisms. As a consequence, a characterization of equivalence that does not resort to derivatives (analogous to scalar-valued cases of Colombeau's construction) is achieved. These results are employed to derive a point value description of all types of generalized functions valued in manifolds and to show that composition can be carried out unrestrictedly. Finally, a new concept of association adapted to the present setting is introduced.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Kunzinger, Michael 2004. Nonsmooth differential geometry and algebras of generalized functions. Journal of Mathematical Analysis and Applications, Vol. 297, Issue. 2, p. 456.

Pilipović, S. and Scarpalezos, D. 2006. Divergent Type Quasilinear Dirichlet Problem with Singularities. Acta Applicandae Mathematicae, Vol. 94, Issue. 1, p. 67.

Konjik, Sanja and Kunzinger, Michael 2006. Generalized group actions in a global setting. Journal of Mathematical Analysis and Applications, Vol. 322, Issue. 1, p. 420.

Steinbauer, R and Vickers, J A 2006. The use of generalized functions and distributions in general relativity. Classical and Quantum Gravity, Vol. 23, Issue. 10, p. R91.

Konjik, Sanja Kunzinger, Michael and Oberguggenberger, Michael 2008. Foundations of the Calculus of Variations in Generalized Function Algebras. Acta Applicandae Mathematicae, Vol. 103, Issue. 2, p. 169.

Pilipović, Stevan and Žigić, Milica 2011. Suppleness of the sheaf of algebras of generalized functions on manifolds. Journal of Mathematical Analysis and Applications, Vol. 379, Issue. 2, p. 482.

Vernaeve, Hans 2011. Isomorphisms of algebras of generalized functions. Monatshefte für Mathematik, Vol. 162, Issue. 2, p. 225.

Vickers, J.A. 2012. Distributional geometry in general relativity. Journal of Geometry and Physics, Vol. 62, Issue. 3, p. 692.

Burtscher, Annegret 2012. An algebraic approach to manifold-valued generalized functions. Monatshefte für Mathematik, Vol. 166, Issue. 3-4, p. 361.

Burtscher, Annegret and Kunzinger, Michael 2012. Algebras of generalized functions with smooth parameter dependence. Proceedings of the Edinburgh Mathematical Society, Vol. 55, Issue. 1, p. 105.

Erlacher, Evelina 2013. Inversion of Colombeau generalized functions. Proceedings of the Edinburgh Mathematical Society, Vol. 56, Issue. 2, p. 469.

Nigsch, Eduard 2014. Nonlinear tensor distributions on Riemannian manifolds. Rocky Mountain Journal of Mathematics, Vol. 44, Issue. 2,

Nigsch, E.A. 2016. Nonlinear generalized sections of vector bundles. Journal of Mathematical Analysis and Applications, Vol. 440, Issue. 1, p. 183.

Nigsch, Eduard A. 2017. Nonlinear generalized sections and vector bundle homomorphisms in Colombeau spaces of generalized functions. Mathematische Nachrichten, Vol. 290, Issue. 13, p. 1991.

Huber, Albert 2020. Distributional metrics and the action principle of Einstein–Hilbert gravity. Classical and Quantum Gravity, Vol. 37, Issue. 8, p. 085008.

Article contents

Intrinsic Characterization of Manifold-Valued Generalized Functions

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Intrinsic Characterization of Manifold-Valued Generalized Functions

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests