In this paper we propose a notion of s-fractional mass for 1-currents in Rd. Such a notion generalizes the notion of s-fractional perimeters for sets in the plane. Remarkably, the limit as s→1 of the s-fractional mass gives back the classical notion of length for regular enough curves in Rd. We prove a lower semi-continuity and compactness result for sequences of 1-currents with uniformly bounded fractional mass and support. Moreover, we prove the density of weighted polygonal, closed and compact oriented curves in the class of divergence-free 1-currents with compact support and finite fractional mass. Finally, we discuss some possible applications of our notion of fractional mass to build up purely geometrical approaches to the variational modeling of dislocation lines in crystals and to vortex filaments in superconductivity.
A notion of s-fractional mass for 1-currents in higher codimension / Cicalese, M., Heilmann, T., Kubin, A., Onoue, F., Ponsiglione, M.. - In: MATHEMATISCHE ANNALEN. - ISSN 0025-5831. - 393:2(2025), pp. 2157-2186. [10.1007/s00208-025-03282-8]
A notion of s-fractional mass for 1-currents in higher codimension
Kubin, A.;
2025
Abstract
In this paper we propose a notion of s-fractional mass for 1-currents in Rd. Such a notion generalizes the notion of s-fractional perimeters for sets in the plane. Remarkably, the limit as s→1 of the s-fractional mass gives back the classical notion of length for regular enough curves in Rd. We prove a lower semi-continuity and compactness result for sequences of 1-currents with uniformly bounded fractional mass and support. Moreover, we prove the density of weighted polygonal, closed and compact oriented curves in the class of divergence-free 1-currents with compact support and finite fractional mass. Finally, we discuss some possible applications of our notion of fractional mass to build up purely geometrical approaches to the variational modeling of dislocation lines in crystals and to vortex filaments in superconductivity.| File | Dimensione | Formato | |
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