Stability and Deformation Criteria in Free Boundary CMC Immersions

Carlos W. Rodríguez

Ayuda

Stability and Deformation Criteria in Free Boundary CMC Immersions

Carlos Wilson Rodríguez Cárdenas ^[1]
1. [1] Universidad Industrial de Santander
  
  Universidad Industrial de Santander
  
  Colombia
Localización: Revista Colombiana de Matemáticas, ISSN-e 0034-7426, Vol. 57, Nº. Extra 1, 2023, págs. 1-26
Idioma: varios idiomas
Títulos paralelos:
- Criterios de estabilidad y deformación en inmersiones con CMC y frontera libre
Enlaces
- Texto completo
Resumen
- español
  Sean ∑n y M n+1 variedades suaves con frontera suave. Dada una inmersión φ: ∑ → M, con curvatura media constante (CMC) y frontera libre, encontramos resultados relacionados con la existencia y unicidad de una familia de deformación de φ, {φt}t ∈I , compuesta por inmersiones con curvatura media constante y frontera libre. Adicionalmente, damos algunos criterios de estabilidad e inestabilidad para este tipo de deformaciones. Estos resultados son obtenidos a partir de las propiedades de los valores propios y las funciones propias del operador de Jacobi Jφ asociado a φ, y condiciones de estabilidad para este operador, tales como, Dim(Ker(Jφ)) = 0, o si Dim(Ker(Jφ)) = 1 para f ∈ Ker(Jφ); f ≠ 0, ∫∑ volφ*(g) ≠ 0. La familia de deformación es única, salvo difeomorsmos.
- Multiple
  Let ∑n and M n+1 be smooth manifolds with smooth boundary. Given a free boundary constant mean curvature (CMC) immersion φ: ∑ → M, we found results related to the existence and uniqueness of a deformation family of φ, {φt}t ∈I , composed by free boundary CMC immersions. In addition, we give to some criteria of stability and unstability for this type of deformations. These results are obtained from properties of the eigenvalues and eigenfunctions of the Jacobi operator Jφ associated to φ and establishing conditions for this operator such as Dim(Ker(Jφ)) = 0, or if Dim(Ker(Jφ)) = 1 and, for f ∈ Ker(Jφ); f ≠ 0, ∫∑ volφ*(g) ≠ 0. The deformation family is unique up to diffeomorphisms.
Referencias bibliográficas
- L. C. Ambrozio, Rigidity of area-minimizing free boundary surfaces in mean convex threemanifolds, The Journal of Geometric Analysis 25 (2015),...
- A. Ancona, B. Helffer, and T. Hoffmann-Ostenhof, Nodal domain theoremsa la courant, Documenta Mathematica 9 (2004), 283-299.
- J. L. Barbosa and M. do Carmo, Stability of hypersurfaces with constant mean curvature, athematische Zeitschrift Springer-Verlag 185 (1984),...
- E. Bendito, M. J. Bowick, and A. Medina, Delaunay Surfaces, https://arxiv.org/abs/1305.5681. 2013.
- R. Bettiol and R. Giambò, Genericity of nondegenerate geodesics with general boundary conditions, Topological Methods in Nonlinear Analysis...
- R. Bettiol, P. Piccione, and B. Santoro, Deformations of free boundary cmc hypersurfaces, The Journal of Geometric Analysis 27 (2017), no....
- L. Biliotti, M. A. Javaloyes, and P. Piccione, Genericity of nondegenerate critical points and Morse geodesic functional, Indiana University...
- C. W. Rodríguez C., Genericity of Nondegenerate Free Boundary CMC Embeddings, Mediterranea Journal Mathematics 17 (2020), 17:188.
- D. Gilbarg and N. S. Trudinger, Elliptic partial differential equations of second order, Springer-Verlag, Berlin-Heidelberg-New York-Tokyo...
- Gohberg and Krein, The basic propositions on defect numbers and indices of linear operators, Transactions of the American Mathematical Society...
- M. Koiso, Deformation and stability of surfaces with constant mean curvature, Tohoku Mathematical Journal, Second Series 54 (2002), no. 1,...
- N. Koiso, Variational Problems, Kyoritsu Publ., Tokyo, Japan, 1998.
- O. A. Ladyzhenskaya and N. U. Tseva, linear and quasilinear elliptic equations, Translated from the russian by scripta technica, inc. translation...