Pull-Back of Metric Currents and Homological Boundedness of BLD-Elliptic Spaces

Abstract: Using the duality of metric currents and polylipschitz forms, we show that a BLD-mapping f : X → Y between oriented cohomology manifolds X and Y induces a pull-back operator f * : M k,loc (Y ) → M k,loc (X) between the spaces of metric k-currents of locally finite mass. For proper maps, the pull-back is a right-inverse (up to multiplicity) of the push-forward f * : M k,loc (X) → M k,loc (Y ).As an application we obtain a non-smooth version of the cohomological boundedness theorem of Bonk and Heinonen for local… Show more

“…Our motivation to consider polylipschitz forms stems from an application of metric currents to geometric mapping theory -polylipschitz forms induce a natural local pull-back for metric currents of finite mass under BLD-mappings. We discuss this application briefly in the end of the introduction and in more detail in [9].…”

“…Then there exists a unique sequentially continuous linear functional Motivation: Pull-back of metric currents by BLD-maps. In [9] we apply the duality theory developed in this paper to a problem in geometric mapping theory. To avoid the added layer of abstraction involved in polylipschitz forms we formulate the results in [9] for polylipschitz sections, which are sufficient for our purposes.…”

“…In [9] we apply the duality theory developed in this paper to a problem in geometric mapping theory. To avoid the added layer of abstraction involved in polylipschitz forms we formulate the results in [9] for polylipschitz sections, which are sufficient for our purposes. For this reason, in Section 9 we briefly discuss duality theory in connection with polylipschitz sections.…”

“…In the classical setting of Euclidean spaces, this push-forward is associated to the pull-back of differential forms under the mapping f . In [9], we consider BLD-mappings f : X → Y between metric generalized n-manifolds. A mapping f : X → Y is a mapping of bounded length distortion (or BLD for short) if f is a discrete and open mapping for which there exists a constant…”

“…For a BLD-mapping f : X → Y between locally compact spaces, the polylipschitz sections admit a push-forward f # : Γ k c (X) → Γ k pc,c (Y ), which in turn induces a natural pull-back f * : M k,loc (Y ) → M k,loc (X) for metric currents. We refer to [9] for detailed statements and further applications.…”

Metric currents and polylipschitz forms

“…Our motivation to consider polylipschitz forms stems from an application of metric currents to geometric mapping theory -polylipschitz forms induce a natural local pull-back for metric currents of finite mass under BLD-mappings. We discuss this application briefly in the end of the introduction and in more detail in [9].…”

“…Then there exists a unique sequentially continuous linear functional Motivation: Pull-back of metric currents by BLD-maps. In [9] we apply the duality theory developed in this paper to a problem in geometric mapping theory. To avoid the added layer of abstraction involved in polylipschitz forms we formulate the results in [9] for polylipschitz sections, which are sufficient for our purposes.…”

“…In [9] we apply the duality theory developed in this paper to a problem in geometric mapping theory. To avoid the added layer of abstraction involved in polylipschitz forms we formulate the results in [9] for polylipschitz sections, which are sufficient for our purposes. For this reason, in Section 9 we briefly discuss duality theory in connection with polylipschitz sections.…”

“…In the classical setting of Euclidean spaces, this push-forward is associated to the pull-back of differential forms under the mapping f . In [9], we consider BLD-mappings f : X → Y between metric generalized n-manifolds. A mapping f : X → Y is a mapping of bounded length distortion (or BLD for short) if f is a discrete and open mapping for which there exists a constant…”

“…For a BLD-mapping f : X → Y between locally compact spaces, the polylipschitz sections admit a push-forward f # : Γ k c (X) → Γ k pc,c (Y ), which in turn induces a natural pull-back f * : M k,loc (Y ) → M k,loc (X) for metric currents. We refer to [9] for detailed statements and further applications.…”

Metric currents and polylipschitz forms