SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2021049930> ?p ?o ?g. }

Showing items 1 to 84 of 84 with 100 items per page.

W2021049930 abstract "where V and k are, respectively, the normal velocity and curvature of the interface. Equation (1) is sometimes called the “curve shortening problem” because it is the negative L2-gradient flow of the length of the interface. By drawing pictures, one can be easily convinced that a simple closed curve stays simple and smooth along (1) and shrinks to a point in finite time, with the limiting shape of a circle. However, a mathematical treatment of (1) turned out to be rather delicate. In fact, a rigorous study did not exist until the early 1980s, when differential geometers considered (1) as a tool in the search for simple closed geodesics on surfaces. It was also regarded as a model case for more general curvature flows, which are believed to be important in the topological classification of low-dimensional manifolds. As a first attempt, Gage [10] proved that the isoperimetric ratio decreases along convex curves. Then in Gage and Hamilton [12], it was shown that a convex curve stays convex and shrinks to a point in finite time. Moreover, if one normalizes the flow by dilating it so that the enclosing area is constant, the normalized flow converges smoothly to a circle. Finally, Grayson [14] completed this line of investigation by showing that a simple curve evolves into a convex one before shrinks to a point. For an alternative approach to this result, one may consult Hamilton [18]. Recently Mullins’s theory was generalized by Gurtin [15], [16] and by Angenent and Gurtin [4], [5] (see also the monograph of Gurtin [17]) to include anisotropy and the possibility of a difference in bulk energies between phases. Anisotropy is indispensable in dealing with crystalline materials. For perfect conductors, the temperatures in both phases are constant. The equation becomes" @default.
W2021049930 created "2016-06-24" @default.
W2021049930 creator A5016434270 @default.
W2021049930 creator A5073211335 @default.
W2021049930 date "1999-04-15" @default.
W2021049930 modified "2023-09-29" @default.
W2021049930 title "Anisotropic flows for convex plane curves" @default.
W2021049930 cites W135543600 @default.
W2021049930 cites W1484178435 @default.
W2021049930 cites W1553761880 @default.
W2021049930 cites W1563677218 @default.
W2021049930 cites W1967575062 @default.
W2021049930 cites W1971349393 @default.
W2021049930 cites W2016684934 @default.
W2021049930 cites W2021350139 @default.
W2021049930 cites W2045280866 @default.
W2021049930 cites W2062314820 @default.
W2021049930 cites W2123022380 @default.
W2021049930 cites W2146146715 @default.
W2021049930 cites W2329975073 @default.
W2021049930 cites W4249279429 @default.
W2021049930 cites W4251220139 @default.
W2021049930 cites W4254825570 @default.
W2021049930 doi "https://doi.org/10.1215/s0012-7094-99-09722-3" @default.
W2021049930 hasPublicationYear "1999" @default.
W2021049930 type Work @default.
W2021049930 sameAs 2021049930 @default.
W2021049930 citedByCount "26" @default.
W2021049930 countsByYear W20210499302012 @default.
W2021049930 countsByYear W20210499302014 @default.
W2021049930 countsByYear W20210499302015 @default.
W2021049930 countsByYear W20210499302016 @default.
W2021049930 countsByYear W20210499302017 @default.
W2021049930 countsByYear W20210499302019 @default.
W2021049930 countsByYear W20210499302020 @default.
W2021049930 countsByYear W20210499302021 @default.
W2021049930 countsByYear W20210499302022 @default.
W2021049930 countsByYear W20210499302023 @default.
W2021049930 crossrefType "journal-article" @default.
W2021049930 hasAuthorship W2021049930A5016434270 @default.
W2021049930 hasAuthorship W2021049930A5073211335 @default.
W2021049930 hasConcept C111110010 @default.
W2021049930 hasConcept C112680207 @default.
W2021049930 hasConcept C120665830 @default.
W2021049930 hasConcept C121332964 @default.
W2021049930 hasConcept C128618672 @default.
W2021049930 hasConcept C134306372 @default.
W2021049930 hasConcept C157972887 @default.
W2021049930 hasConcept C17825722 @default.
W2021049930 hasConcept C2524010 @default.
W2021049930 hasConcept C33923547 @default.
W2021049930 hasConcept C43809302 @default.
W2021049930 hasConcept C85725439 @default.
W2021049930 hasConceptScore W2021049930C111110010 @default.
W2021049930 hasConceptScore W2021049930C112680207 @default.
W2021049930 hasConceptScore W2021049930C120665830 @default.
W2021049930 hasConceptScore W2021049930C121332964 @default.
W2021049930 hasConceptScore W2021049930C128618672 @default.
W2021049930 hasConceptScore W2021049930C134306372 @default.
W2021049930 hasConceptScore W2021049930C157972887 @default.
W2021049930 hasConceptScore W2021049930C17825722 @default.
W2021049930 hasConceptScore W2021049930C2524010 @default.
W2021049930 hasConceptScore W2021049930C33923547 @default.
W2021049930 hasConceptScore W2021049930C43809302 @default.
W2021049930 hasConceptScore W2021049930C85725439 @default.
W2021049930 hasIssue "3" @default.
W2021049930 hasLocation W20210499301 @default.
W2021049930 hasOpenAccess W2021049930 @default.
W2021049930 hasPrimaryLocation W20210499301 @default.
W2021049930 hasRelatedWork W1567905937 @default.
W2021049930 hasRelatedWork W2008117910 @default.
W2021049930 hasRelatedWork W2079093246 @default.
W2021049930 hasRelatedWork W2092505655 @default.
W2021049930 hasRelatedWork W2940921163 @default.
W2021049930 hasRelatedWork W2951099998 @default.
W2021049930 hasRelatedWork W2952139276 @default.
W2021049930 hasRelatedWork W3042196055 @default.
W2021049930 hasRelatedWork W3129021595 @default.
W2021049930 hasRelatedWork W2027540548 @default.
W2021049930 hasVolume "97" @default.
W2021049930 isParatext "false" @default.
W2021049930 isRetracted "false" @default.
W2021049930 magId "2021049930" @default.
W2021049930 workType "article" @default.