Evolution of spoon-shaped networks

Abstract: We consider a regular embedded network composed by two curves, one of them closed, in a convex domain Ω. The two curves meet only in one point, forming angle of 120 degrees. The non-closed curve has a fixed end point on ∂Ω. We study the evolution by curvature of this network. We show that the maximal existence time depends only on the area enclosed in the initial loop, if the length of the non-closed curve stays bounded from below during the evolution. Moreover, the closed curve shrinks to a point and the netw… Show more

“…Recently, the problem of the evolution by curvature of a network of curves in the plane got the interest of several authors [3,7,11,12,[15][16][17][18][19]. It is well known, after the work of Huisken [8] in the smooth case of the hypersurfaces in the Euclidean space and of Ilmanen [9,10] in the more general weak settings of varifolds, that a suitable sequence of rescalings of the subsets of R n which are evolving by mean curvature, approaching a singular time of the flow, converges to a so called "blow-up limit" set which, letting it flow again by mean curvature, simply moves by homothety, precisely, it shrinks down self-similarly toward the origin of the Euclidean space.…”

Networks self-similarly moving by curvature with two triple junctions

“…Recently, the problem of the evolution by curvature of a network of curves in the plane got the interest of several authors [3,7,11,12,[15][16][17][18][19]. It is well known, after the work of Huisken [8] in the smooth case of the hypersurfaces in the Euclidean space and of Ilmanen [9,10] in the more general weak settings of varifolds, that a suitable sequence of rescalings of the subsets of R n which are evolving by mean curvature, approaching a singular time of the flow, converges to a so called "blow-up limit" set which, letting it flow again by mean curvature, simply moves by homothety, precisely, it shrinks down self-similarly toward the origin of the Euclidean space.…”

Networks self-similarly moving by curvature with two triple junctions

“…The simplest case of a network with a loop (a region bounded by one or more curves) is treated in [21]: a network composed by two curves, one of them closed, meeting only at one point. In this case, if the length of the non-closed curve is bounded away from zero during the evolution, the closed curve shrinks to a point after a finite time which depends only on the area initially enclosed in the loop.…”

Motion by curvature of networks with two triple junctions

“…In [11], Epstein and Weinstein use a perturbation in the space of curvature to show that only the circle with multiplicity 1 is the only stable compact self-shrinker in R 2 . The Brakke spoon is shown to be the blow-up limit for all spoon-shaped networks in the work of Pluda [20]. This implies stability since any perturbation of the Brakke spoon is topologically spoonshaped.…”

Stability of regular shrinkers in the network flow