on some variational problems in riemannian and fractal ... bisci.pdf · bonanno and v. r adulescu...
TRANSCRIPT
![Page 1: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/1.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
On some variational problems in Riemannianand Fractal Geometry
Giovanni Molica Bisci?
?Mediterranean University of Reggio CalabriaFaculty of ArchitectureP.A.U. - Department
e-mail: [email protected]
Optimization DaysAncona - June 6–8, 2011
Giovanni Molica Bisci On some variational problems in...
![Page 2: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/2.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Index
1 Abstract
2 A problem on Riemannian manifoldsPreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
3 Infinitely many solutionsAbstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
4 Infinitely many solutions for the Sierpinski fractalThe problemAbstract frameworkMain Result
5 References
Giovanni Molica Bisci On some variational problems in...
![Page 3: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/3.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Index
1 Abstract
2 A problem on Riemannian manifoldsPreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
3 Infinitely many solutionsAbstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
4 Infinitely many solutions for the Sierpinski fractalThe problemAbstract frameworkMain Result
5 References
Giovanni Molica Bisci On some variational problems in...
![Page 4: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/4.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Index
1 Abstract
2 A problem on Riemannian manifoldsPreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
3 Infinitely many solutionsAbstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
4 Infinitely many solutions for the Sierpinski fractalThe problemAbstract frameworkMain Result
5 References
Giovanni Molica Bisci On some variational problems in...
![Page 5: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/5.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Index
1 Abstract
2 A problem on Riemannian manifoldsPreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
3 Infinitely many solutionsAbstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
4 Infinitely many solutions for the Sierpinski fractalThe problemAbstract frameworkMain Result
5 References
Giovanni Molica Bisci On some variational problems in...
![Page 6: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/6.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Index
1 Abstract
2 A problem on Riemannian manifoldsPreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
3 Infinitely many solutionsAbstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
4 Infinitely many solutions for the Sierpinski fractalThe problemAbstract frameworkMain Result
5 References
Giovanni Molica Bisci On some variational problems in...
![Page 7: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/7.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract
We present some resent results, obtained in collaboration with G.Bonanno and V. Radulescu on some variational problems arisingfrom Geometry.More precisely, in the first part of the talk, we deal with ellipticproblems defined on compact Riemannian manifolds. This study ismotivated by the Emden-Fowler equation that appears inmathematical physics, after a suitable change of coordinates, oneobtains a new problem defined on the unit sphere Sd endowed of thestandard metric.In the second part, under an appropriate oscillating behavior either atzero or at infinity of the nonlinear term, the existence of a sequence ofweak solutions for an eigenvalue Dirichlet problem, on a fractaldomain, is proved.
Giovanni Molica Bisci On some variational problems in...
![Page 8: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/8.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract
We present some resent results, obtained in collaboration with G.Bonanno and V. Radulescu on some variational problems arisingfrom Geometry.More precisely, in the first part of the talk, we deal with ellipticproblems defined on compact Riemannian manifolds. This study ismotivated by the Emden-Fowler equation that appears inmathematical physics, after a suitable change of coordinates, oneobtains a new problem defined on the unit sphere Sd endowed of thestandard metric.In the second part, under an appropriate oscillating behavior either atzero or at infinity of the nonlinear term, the existence of a sequence ofweak solutions for an eigenvalue Dirichlet problem, on a fractaldomain, is proved.
Giovanni Molica Bisci On some variational problems in...
![Page 9: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/9.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
We cite the following very recent monograph as general reference onthis subject
A. Kristaly, V. Radulescu and Cs. Varga
Variational Principles in Mathematical Physics, Geometry, andEconomics: Qualitative Analysis of Nonlinear Equations andUnilateral Problems, Cambridge University press, 2010.
Giovanni Molica Bisci On some variational problems in...
![Page 10: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/10.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
The problem
Let (M, g) be a compact d-dimensional Riemannian manifold withoutboundary, where d ≥ 3. Let ∆g denote the Laplace-Beltrami operatoron (M, g) and assume that the functions α,K ∈ C∞(M) are positive.Suppose f : R→ R is a locally Holder continuous function withsublinear growth and λ is a positive real parameter. We are interestedin the existence of solutions to the following eigenvalue problem:
−∆gw + α(σ)w = λK(σ)f(w), σ ∈M, w ∈ H21 (M) (Pλ)
Giovanni Molica Bisci On some variational problems in...
![Page 11: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/11.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
The problem
Let (M, g) be a compact d-dimensional Riemannian manifold withoutboundary, where d ≥ 3. Let ∆g denote the Laplace-Beltrami operatoron (M, g) and assume that the functions α,K ∈ C∞(M) are positive.Suppose f : R→ R is a locally Holder continuous function withsublinear growth and λ is a positive real parameter. We are interestedin the existence of solutions to the following eigenvalue problem:
−∆gw + α(σ)w = λK(σ)f(w), σ ∈M, w ∈ H21 (M) (Pλ)
Giovanni Molica Bisci On some variational problems in...
![Page 12: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/12.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
A problem on Riemannian manifolds
By using variational methods we find a well determined open intervalof values of the parameter λ for which problem (Pλ) admits at leastthree solutions.
Giovanni Molica Bisci On some variational problems in...
![Page 13: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/13.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
A problem on Riemannian manifolds
By using variational methods we find a well determined open intervalof values of the parameter λ for which problem (Pλ) admits at leastthree solutions.
Giovanni Molica Bisci On some variational problems in...
![Page 14: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/14.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
A problem on Riemannian manifolds
A remarkable case of problem (Pλ) is
−∆hw + s(1− s− d)w = λK(σ)f(w), σ ∈ Sd, w ∈ H21 (Sd), (Sλ)
where Sd is the unit sphere in Rd+1, h is the standard metric inducedby the embedding Sd → Rd+1, s is a constant such that 1− d < s < 0,and ∆h denotes the Laplace-Beltrami operator on (Sd, h).
Giovanni Molica Bisci On some variational problems in...
![Page 15: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/15.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
A problem on Riemannian manifolds
A remarkable case of problem (Pλ) is
−∆hw + s(1− s− d)w = λK(σ)f(w), σ ∈ Sd, w ∈ H21 (Sd), (Sλ)
where Sd is the unit sphere in Rd+1, h is the standard metric inducedby the embedding Sd → Rd+1, s is a constant such that 1− d < s < 0,and ∆h denotes the Laplace-Beltrami operator on (Sd, h).
Giovanni Molica Bisci On some variational problems in...
![Page 16: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/16.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
A problem on Riemannian manifolds
Existence results for problem (Sλ) yield, by using an appropriatechange of coordinates, the existence of solutions to the followingparameterized Emden-Fowler equation
−∆u = λ|x|s−2K(x/|x|)f(|x|−su), x ∈ Rd+1 \ 0. (Fλ)
Giovanni Molica Bisci On some variational problems in...
![Page 17: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/17.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
A problem on Riemannian manifolds
Existence results for problem (Sλ) yield, by using an appropriatechange of coordinates, the existence of solutions to the followingparameterized Emden-Fowler equation
−∆u = λ|x|s−2K(x/|x|)f(|x|−su), x ∈ Rd+1 \ 0. (Fλ)
Giovanni Molica Bisci On some variational problems in...
![Page 18: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/18.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
A problem on Riemannian manifolds
Moreover, we observe that the existence of a smooth positive solution
for problem (Sλ), when s = −d/2 or s = −d/2 + 1, and f(t) = |t|4d−2 t,
can be viewed as an affirmative answer to the famous Yamabeproblem on Sd.For these topics we refer to Aubin, Cotsiolis and Iliopoulos, Hebey,Kazdan and Warner, Vazquez and Veron, and to the excellent surveyby Lee and Parker.In these cases the right hand-side of problem (Sλ) involves the criticalSobolev exponent.
Giovanni Molica Bisci On some variational problems in...
![Page 19: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/19.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
A problem on Riemannian manifolds
Moreover, we observe that the existence of a smooth positive solution
for problem (Sλ), when s = −d/2 or s = −d/2 + 1, and f(t) = |t|4d−2 t,
can be viewed as an affirmative answer to the famous Yamabeproblem on Sd.For these topics we refer to Aubin, Cotsiolis and Iliopoulos, Hebey,Kazdan and Warner, Vazquez and Veron, and to the excellent surveyby Lee and Parker.In these cases the right hand-side of problem (Sλ) involves the criticalSobolev exponent.
Giovanni Molica Bisci On some variational problems in...
![Page 20: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/20.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
A problem on Riemannian manifolds
Cotsiolis and Iliopoulos as well as Vazquez and Veron studiedproblem (Fλ) in
A. Cotsiolis and D. Iliopoulos
Equations elliptiques non lineaires a croissance de Sobolevsur-critique, Bull. Sci. Math. 119 (1995), 419–431.
J.L. Vazquez and L. Veron
Solutions positives d’equations elliptiques semi-lineaires sur desvarietes riemanniennes compactes, C. R. Acad. Sci. Paris, Ser. IMath. 312 (1991), 811–815.
by applying either minimization or minimax methods, provided thatf(t) = |t|p−1t, with p > 1.
Giovanni Molica Bisci On some variational problems in...
![Page 21: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/21.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
A problem on Riemannian manifolds
Cotsiolis and Iliopoulos as well as Vazquez and Veron studiedproblem (Fλ) in
A. Cotsiolis and D. Iliopoulos
Equations elliptiques non lineaires a croissance de Sobolevsur-critique, Bull. Sci. Math. 119 (1995), 419–431.
J.L. Vazquez and L. Veron
Solutions positives d’equations elliptiques semi-lineaires sur desvarietes riemanniennes compactes, C. R. Acad. Sci. Paris, Ser. IMath. 312 (1991), 811–815.
by applying either minimization or minimax methods, provided thatf(t) = |t|p−1t, with p > 1.
Giovanni Molica Bisci On some variational problems in...
![Page 22: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/22.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
A problem on Riemannian manifolds
Cotsiolis and Iliopoulos as well as Vazquez and Veron studiedproblem (Fλ) in
A. Cotsiolis and D. Iliopoulos
Equations elliptiques non lineaires a croissance de Sobolevsur-critique, Bull. Sci. Math. 119 (1995), 419–431.
J.L. Vazquez and L. Veron
Solutions positives d’equations elliptiques semi-lineaires sur desvarietes riemanniennes compactes, C. R. Acad. Sci. Paris, Ser. IMath. 312 (1991), 811–815.
by applying either minimization or minimax methods, provided thatf(t) = |t|p−1t, with p > 1.
Giovanni Molica Bisci On some variational problems in...
![Page 23: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/23.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Successively, in
A. Kristaly, V. Radulescu
Sublinear eigenvalue problems on compact Riemannian manifolds withapplications in Emden-Fowler equations, Studia Math. 191 (2009),237–246.
the authors are interested on the existence of multiple solutions ofproblem (Pλ) in order to obtain solutions for parameterizedEmden-Fowler equation (Fλ) considering nonlinear terms of sublineartype at infinity.
Giovanni Molica Bisci On some variational problems in...
![Page 24: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/24.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Successively, in
A. Kristaly, V. Radulescu
Sublinear eigenvalue problems on compact Riemannian manifolds withapplications in Emden-Fowler equations, Studia Math. 191 (2009),237–246.
the authors are interested on the existence of multiple solutions ofproblem (Pλ) in order to obtain solutions for parameterizedEmden-Fowler equation (Fλ) considering nonlinear terms of sublineartype at infinity.
Giovanni Molica Bisci On some variational problems in...
![Page 25: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/25.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
A problem on Riemannian manifolds
In particular, for λ sufficiently large, the existence of two nontrivialsolutions for problem (Pλ) has been successfully obtained through acareful analysis of the standard mountain pass geometry. Theorem 9.2p. 220 in
A. Kristaly, V. Radulescu and Cs. Varga
Variational Principles in Mathematical Physics, Geometry, andEconomics: Qualitative Analysis of Nonlinear Equations andUnilateral Problems, Cambridge University press, 2010.
Giovanni Molica Bisci On some variational problems in...
![Page 26: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/26.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
A problem on Riemannian manifolds
In particular, for λ sufficiently large, the existence of two nontrivialsolutions for problem (Pλ) has been successfully obtained through acareful analysis of the standard mountain pass geometry. Theorem 9.2p. 220 in
A. Kristaly, V. Radulescu and Cs. Varga
Variational Principles in Mathematical Physics, Geometry, andEconomics: Qualitative Analysis of Nonlinear Equations andUnilateral Problems, Cambridge University press, 2010.
Giovanni Molica Bisci On some variational problems in...
![Page 27: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/27.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
A problem on Riemannian manifolds
Further, Kristaly, Radulescu and Varga proved the existence of anopen interval of positive parameters for which problem (Pλ) admitstwo distinct nontrivial solutions by using an abstract three criticalpoints theorem due to Bonanno.
G. Bonanno
Some remarks on a three critical points theorem, Nonlinear Anal.TMA 54 (2003), 651–665.
Giovanni Molica Bisci On some variational problems in...
![Page 28: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/28.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
A problem on Riemannian manifolds
Further, Kristaly, Radulescu and Varga proved the existence of anopen interval of positive parameters for which problem (Pλ) admitstwo distinct nontrivial solutions by using an abstract three criticalpoints theorem due to Bonanno.
G. Bonanno
Some remarks on a three critical points theorem, Nonlinear Anal.TMA 54 (2003), 651–665.
Giovanni Molica Bisci On some variational problems in...
![Page 29: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/29.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Some basic facts
We start this section with a short list of notions in Riemmaniangeometry. We refer to
T. Aubin
Nonlinear Analysis on Manifolds. Monge–Ampeere Equations,Grundlehren der Mathematischen Wissenschaften [FundamentalPrinciples of Mathematical Sciences], vol. 252. Springer-Verlag, NewYork, 1982.
and
E. Hebey
Nonlinear Analysis on Manifolds: Sobolev Spaces and Inequalities,Courant Lecture Notes in Mathematics, New York, 1999.
for detailed derivations of the geometric quantities, their motivationand further applications.
Giovanni Molica Bisci On some variational problems in...
![Page 30: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/30.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Some basic facts
We start this section with a short list of notions in Riemmaniangeometry. We refer to
T. Aubin
Nonlinear Analysis on Manifolds. Monge–Ampeere Equations,Grundlehren der Mathematischen Wissenschaften [FundamentalPrinciples of Mathematical Sciences], vol. 252. Springer-Verlag, NewYork, 1982.
and
E. Hebey
Nonlinear Analysis on Manifolds: Sobolev Spaces and Inequalities,Courant Lecture Notes in Mathematics, New York, 1999.
for detailed derivations of the geometric quantities, their motivationand further applications.
Giovanni Molica Bisci On some variational problems in...
![Page 31: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/31.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Some basic facts
Let (M, g) be a smooth compact d-dimensional (d ≥ 3) Riemannianmanifold without boundary and let gij be the components of themetric g. As usual, we denote by C∞(M) the space of smoothfunctions defined on M. Let α ∈ C∞(M) be a positive function andput ‖α‖∞ := max
σ∈Mα(σ).
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Some basic facts
Let (M, g) be a smooth compact d-dimensional (d ≥ 3) Riemannianmanifold without boundary and let gij be the components of themetric g. As usual, we denote by C∞(M) the space of smoothfunctions defined on M. Let α ∈ C∞(M) be a positive function andput ‖α‖∞ := max
σ∈Mα(σ).
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Some basic facts
For every w ∈ C∞(M), set
‖w‖2H2α
:=
∫M|∇w(σ)|2dσg +
∫Mα(σ)|w(σ)|2dσg,
where ∇w is the covariant derivative of w, and dσg is the Riemannianmeasure. In local coordinates (x1, . . . , xd), the components of ∇w aregiven by
(∇2w)ij =∂2w
∂xi∂xj− Γkij
∂w
∂xk,
where
Γkij :=1
2
(∂glj∂xi
+∂gli∂xj− ∂gij∂xk
)glk,
are the usual Christoffel symbols and glk are the elements of theinverse matrix of g.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Some basic facts
For every w ∈ C∞(M), set
‖w‖2H2α
:=
∫M|∇w(σ)|2dσg +
∫Mα(σ)|w(σ)|2dσg,
where ∇w is the covariant derivative of w, and dσg is the Riemannianmeasure. In local coordinates (x1, . . . , xd), the components of ∇w aregiven by
(∇2w)ij =∂2w
∂xi∂xj− Γkij
∂w
∂xk,
where
Γkij :=1
2
(∂glj∂xi
+∂gli∂xj− ∂gij∂xk
)glk,
are the usual Christoffel symbols and glk are the elements of theinverse matrix of g.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Some basic facts
Here, and in the sequel, the Einstein’s summation convention isadopted. Moreover, the measure element dσg assume the formdσg =
√det g dx, where dx stands for the Lebesgue’s volume element
of Rd. Hence, let
Volg(M) :=
∫Mdσg.
In particular, if (M, g) = (Sd, h), where Sd is the unit sphere in Rd+1
and h is the standard metric induced by the embedding Sd → Rd+1,we set
ωd := Volh(Sd) :=
∫Sddσh.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Some basic facts
Here, and in the sequel, the Einstein’s summation convention isadopted. Moreover, the measure element dσg assume the formdσg =
√det g dx, where dx stands for the Lebesgue’s volume element
of Rd. Hence, let
Volg(M) :=
∫Mdσg.
In particular, if (M, g) = (Sd, h), where Sd is the unit sphere in Rd+1
and h is the standard metric induced by the embedding Sd → Rd+1,we set
ωd := Volh(Sd) :=
∫Sddσh.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Some basic facts
The Sobolev space H2α(M) is defined as the completion of C∞(M)
with respect to the norm ‖ · ‖H2α. Then H2
α(M) is a Hilbert spaceendowed with the inner product
〈w1, w2〉H2α
=
∫M〈∇w1,∇w2〉gdσg +
∫Mα(σ)〈w1, w2〉gdσg,
where 〈·, ·〉g is the inner product on covariant tensor fields associatedto g.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Some basic facts
The Sobolev space H2α(M) is defined as the completion of C∞(M)
with respect to the norm ‖ · ‖H2α. Then H2
α(M) is a Hilbert spaceendowed with the inner product
〈w1, w2〉H2α
=
∫M〈∇w1,∇w2〉gdσg +
∫Mα(σ)〈w1, w2〉gdσg,
where 〈·, ·〉g is the inner product on covariant tensor fields associatedto g.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Some basic facts
Since α is positive, the norm ‖ · ‖H2α
is equivalent with the standardnorm
‖w‖H21
:=
(∫M|∇w(σ)|2dσg +
∫M|w(σ)|2dσg
)1/2
.
Moreover, if w ∈ H2α(M), the following inequalities hold
min1, minσ∈M
α(σ)1/2‖w‖H21≤ ‖w‖H2
α≤ max1, ‖α‖1/2∞ ‖w‖H2
1. (1)
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Some basic facts
Since α is positive, the norm ‖ · ‖H2α
is equivalent with the standardnorm
‖w‖H21
:=
(∫M|∇w(σ)|2dσg +
∫M|w(σ)|2dσg
)1/2
.
Moreover, if w ∈ H2α(M), the following inequalities hold
min1, minσ∈M
α(σ)1/2‖w‖H21≤ ‖w‖H2
α≤ max1, ‖α‖1/2∞ ‖w‖H2
1. (1)
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Some basic facts
From the Rellich-Kondrachov theorem for compact manifolds withoutboundary one has
H2α(M) → Lq(M),
for every q ∈ [1, 2d/(d− 2)]. In particular, the embedding is compactwhenever q ∈ [1, 2d/(d− 2)).Hence, there exists a positive constant Sq such that
‖w‖q ≤ Sq‖w‖H2α, for all w ∈ H2
α(M). (2)
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Some basic facts
From the Rellich-Kondrachov theorem for compact manifolds withoutboundary one has
H2α(M) → Lq(M),
for every q ∈ [1, 2d/(d− 2)]. In particular, the embedding is compactwhenever q ∈ [1, 2d/(d− 2)).Hence, there exists a positive constant Sq such that
‖w‖q ≤ Sq‖w‖H2α, for all w ∈ H2
α(M). (2)
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Some basic facts
From now on, we assume that the nonlinearity f satisfies thefollowing structural condition:
f : IR→ IR is a locally Holder continuous function sublinear atinfinity, that is,
(h∞) lim|t|→∞
f(t)
t= 0.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Some basic facts
From now on, we assume that the nonlinearity f satisfies thefollowing structural condition:
f : IR→ IR is a locally Holder continuous function sublinear atinfinity, that is,
(h∞) lim|t|→∞
f(t)
t= 0.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Weak solutions of problem (Pλ)
A function w ∈ H21 (M) is said a weak solution of (Pλ) if∫
M〈∇w,∇v〉gdσg+
∫Mα(σ)〈w, v〉gdσg−λ
∫MK(σ)f(w(σ))v(σ)dσg = 0,
for every v ∈ H21 (M).
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Weak solutions of problem (Pλ)
A function w ∈ H21 (M) is said a weak solution of (Pλ) if∫
M〈∇w,∇v〉gdσg+
∫Mα(σ)〈w, v〉gdσg−λ
∫MK(σ)f(w(σ))v(σ)dσg = 0,
for every v ∈ H21 (M).
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Weak solutions of problem (Pλ)
From a variational stand point the weak solutions of (Pλ) in H21 (M),
are the critical points of the C1-functional given by
Jλ(u) :=‖w‖2H2
α
2− λ
∫MK(σ)F (w(σ))dσg,
for every u ∈ H21 (M).
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Weak solutions of problem (Pλ)
From a variational stand point the weak solutions of (Pλ) in H21 (M),
are the critical points of the C1-functional given by
Jλ(u) :=‖w‖2H2
α
2− λ
∫MK(σ)F (w(σ))dσg,
for every u ∈ H21 (M).
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Theorem (G. Bonanno and S.A. Marano, Appl. Anal. 2010)
Let X be a reflexive real Banach space, Φ : X → R be a coercive,continuously Gateaux differentiable and sequentially weakly lowersemicontinuous functional whose Gateaux derivative admits acontinuous inverse on X∗, Ψ : X → R be a continuously Gateauxdifferentiable functional whose Gateaux derivative is compactsuch that Φ(0) = Ψ(0) = 0. Assume that there exist r > 0 and x ∈ X,with r < Φ(x), such that:
(a1)
supΦ(x)≤r
Ψ(x)
r<
Ψ(x)
Φ(x);
(a2) for each λ ∈ Λr :=]Φ(x)
Ψ(x),
r
supΦ(x)≤r Ψ(x)
[the functional
Φ− λΨ is coercive.
Then, for each λ ∈ Λr, the functional Φ− λΨ has at least threedistinct critical points in X.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Theorem (G. Bonanno and S.A. Marano, Appl. Anal. 2010)
Let X be a reflexive real Banach space, Φ : X → R be a coercive,continuously Gateaux differentiable and sequentially weakly lowersemicontinuous functional whose Gateaux derivative admits acontinuous inverse on X∗, Ψ : X → R be a continuously Gateauxdifferentiable functional whose Gateaux derivative is compactsuch that Φ(0) = Ψ(0) = 0. Assume that there exist r > 0 and x ∈ X,with r < Φ(x), such that:
(a1)
supΦ(x)≤r
Ψ(x)
r<
Ψ(x)
Φ(x);
(a2) for each λ ∈ Λr :=]Φ(x)
Ψ(x),
r
supΦ(x)≤r Ψ(x)
[the functional
Φ− λΨ is coercive.
Then, for each λ ∈ Λr, the functional Φ− λΨ has at least threedistinct critical points in X.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Main results on the existence ofat least three solutions
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Notations
We set
κα :=( 2
‖α‖L1(M)
)1/2
,
and
K1 :=S1√
2‖α‖L1(M), K2 :=
Sqq
22−q2 q‖α‖L1(M).
Further, let
F (ξ) :=
∫ ξ
0
f(t) dt,
for every ξ ∈ IR.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Notations
We set
κα :=( 2
‖α‖L1(M)
)1/2
,
and
K1 :=S1√
2‖α‖L1(M), K2 :=
Sqq
22−q2 q‖α‖L1(M).
Further, let
F (ξ) :=
∫ ξ
0
f(t) dt,
for every ξ ∈ IR.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Existence of three solutions
Theorem (G. Bonanno,—–, V. Radulescu; Nonlinear Anal. (2011))
Let f : R→ R be a function such that (h∞) holds and assume that
(h1) There exist two nonnegative constants a1, a2 such that
|f(t)| ≤ a1 + a2|t|q−1, for all t ∈ R,
where q ∈]1, 2d/(d− 2)[;
(h2) There exist two positive constants γ and δ, with δ > γκα, such that
F (δ)
δ2>
‖K‖∞‖K‖L1(M)
(a1K1
γ+ a2K2γ
q−2
).
Then, for each parameter λ ∈ Λ(γ,δ) the problem (Pλ), possesses at leastthree solutions in H2
1 (M).
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Existence of three solutions
Theorem (G. Bonanno,—–, V. Radulescu; Nonlinear Anal. (2011))
Let f : R→ R be a function such that (h∞) holds and assume that
(h1) There exist two nonnegative constants a1, a2 such that
|f(t)| ≤ a1 + a2|t|q−1, for all t ∈ R,
where q ∈]1, 2d/(d− 2)[;
(h2) There exist two positive constants γ and δ, with δ > γκα, such that
F (δ)
δ2>
‖K‖∞‖K‖L1(M)
(a1K1
γ+ a2K2γ
q−2
).
Then, for each parameter λ ∈ Λ(γ,δ) the problem (Pλ), possesses at leastthree solutions in H2
1 (M).
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Existence of three solutions
Where
Λ(γ,δ) :=
δ2‖α‖L1(M)
2F (δ)‖K‖L1(M),
‖α‖L1(M)
2‖K‖∞(a1K1
γ+ a2K2γ
q−2) .
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Existence of three solutions
Where
Λ(γ,δ) :=
δ2‖α‖L1(M)
2F (δ)‖K‖L1(M),
‖α‖L1(M)
2‖K‖∞(a1K1
γ+ a2K2γ
q−2) .
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Existence of three solutions for the problem
−∆hw + α(σ)w = λK(σ)f(ω), σ ∈ Sd, w ∈ H21 (Sd)
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Three solutions on the sphere
Let α,K ∈ C∞(Sd) be positive and set
K?1 :=
κ1‖α‖L1(Sd)
√2 min
1, minσ∈Sd
α(σ)1/2
. (3)
Further, for q ∈]1, 2d/(d− 2)[, we will denote
K?2 :=
κqq‖α‖L1(Sd)
22−q2 qmin
1, minσ∈Sd
α(σ)q/2 . (4)
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Three solutions on the sphere
Let α,K ∈ C∞(Sd) be positive and set
K?1 :=
κ1‖α‖L1(Sd)
√2 min
1, minσ∈Sd
α(σ)1/2
. (3)
Further, for q ∈]1, 2d/(d− 2)[, we will denote
K?2 :=
κqq‖α‖L1(Sd)
22−q2 qmin
1, minσ∈Sd
α(σ)q/2 . (4)
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Three solutions on the sphere
Where
κq :=
ω
2−q2q
d if q ∈ [1, 2[,
max
q − 2
dωq−2q
d
1/2
,1
ωq−22q
d
if q ∈[2,
2d
d− 2
[.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Three solutions on the sphere
Where
κq :=
ω
2−q2q
d if q ∈ [1, 2[,
max
q − 2
dωq−2q
d
1/2
,1
ωq−22q
d
if q ∈[2,
2d
d− 2
[.
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Three solutions on the sphere
Corollary
Let f : R→ R be a function such that (h∞) and (h1) hold. Further,assume that there exist two positive constants γ and δ, with δ > γκα,and
(h?2)F (δ)
δ2>‖K‖∞‖K‖L1(Sd)
(a1K?
1
γ+ a2K
?2γ
q−2
),
where K?1 and K?
2 are given respectively by (3) and (4).Then, for each parameter λ belonging to Λ?(γ,δ) the problem (Sαλ )possesses at least three distinct solutions.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Three solutions on the sphere
Corollary
Let f : R→ R be a function such that (h∞) and (h1) hold. Further,assume that there exist two positive constants γ and δ, with δ > γκα,and
(h?2)F (δ)
δ2>‖K‖∞‖K‖L1(Sd)
(a1K?
1
γ+ a2K
?2γ
q−2
),
where K?1 and K?
2 are given respectively by (3) and (4).Then, for each parameter λ belonging to Λ?(γ,δ) the problem (Sαλ )possesses at least three distinct solutions.
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Three solutions on the sphere
Where
Λ?(γ,δ) :=
δ2‖α‖L1(Sd)
2F (δ)‖K‖L1(Sd)
,‖α‖L1(Sd)
2‖K‖∞(a1K?
1
γ+ a2K
?2γ
q−2) .
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Three solutions on the sphere
Where
Λ?(γ,δ) :=
δ2‖α‖L1(Sd)
2F (δ)‖K‖L1(Sd)
,‖α‖L1(Sd)
2‖K‖∞(a1K?
1
γ+ a2K
?2γ
q−2) .
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Existence of three solutions for the Emden-Fowler problem
−∆u = λ|x|s−2K(x/|x|)f(|x|−su), x ∈ Rd+1 \ 0
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Emden-Fowler problems
Next, we consider the following parameterized Emden-Fowler problemthat arises in astrophysics, conformal Riemannian geometry, and inthe theories of thermionic emission, isothermal stationary gas sphere,and gas combustion:
−∆u = λ|x|s−2K(x/|x|)f(|x|−su), x ∈ Rd+1 \ 0. (Fλ)
The equation (Fλ) has been studied when f has the formf(t) = |t|p−1t, p > 1, see Cotsiolis-Iliopoulos, Vazquez-Veron. In thesepapers, the authors obtained existence and multiplicity results for(Fλ), applying either minimization or minimax methods.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Emden-Fowler problems
Next, we consider the following parameterized Emden-Fowler problemthat arises in astrophysics, conformal Riemannian geometry, and inthe theories of thermionic emission, isothermal stationary gas sphere,and gas combustion:
−∆u = λ|x|s−2K(x/|x|)f(|x|−su), x ∈ Rd+1 \ 0. (Fλ)
The equation (Fλ) has been studied when f has the formf(t) = |t|p−1t, p > 1, see Cotsiolis-Iliopoulos, Vazquez-Veron. In thesepapers, the authors obtained existence and multiplicity results for(Fλ), applying either minimization or minimax methods.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Emden-Fowler problems
The solutions of (Fλ) are being sought in the particular form
u(x) = rsw(σ), (5)
where, (r, σ) := (|x|, x/|x|) ∈ (0,∞)× Sd are the spherical coordinatesin Rd+1 \ 0 and w be a smooth function defined on Sd. This type oftransformation is also used by Bidaut-Veron and Veron, where theasymptotic of a special form of (Fλ) has been studied. Throughout(5), taking into account that
∆u = r−d∂
∂r
(rd∂u
∂r
)+ r−2∆hu,
the equation (Fλ) reduces to
−∆hw + s(1− s− d)w = λK(σ)f(w), σ ∈ Sd, w ∈ H21 (Sd),
see also Kristaly and Radulescu.Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Emden-Fowler problems
The solutions of (Fλ) are being sought in the particular form
u(x) = rsw(σ), (5)
where, (r, σ) := (|x|, x/|x|) ∈ (0,∞)× Sd are the spherical coordinatesin Rd+1 \ 0 and w be a smooth function defined on Sd. This type oftransformation is also used by Bidaut-Veron and Veron, where theasymptotic of a special form of (Fλ) has been studied. Throughout(5), taking into account that
∆u = r−d∂
∂r
(rd∂u
∂r
)+ r−2∆hu,
the equation (Fλ) reduces to
−∆hw + s(1− s− d)w = λK(σ)f(w), σ ∈ Sd, w ∈ H21 (Sd),
see also Kristaly and Radulescu.Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Three solutions for Emden-Fowler problems
Corollary
Assume that d and s are two constants such that 1− d < s < 0.Further, let K ∈ C∞(Sd) be a positive function and f : R→ R as inthe previous Corollary. Then, for each parameter λ belonging to
Λs,d(γ,δ) :=
s(1− s− d)ωdδ2
2F (δ)‖K‖L1(Sd)
,s(1− s− d)ωd
2‖K‖∞(a1K?
1
γ+ a2K
?2γ
q−2) ,
the following problem
−∆u = λ|x|s−2K(x/|x|)f(|x|−su), x ∈ Rd+1 \ 0, (Fλ)
admits at least three distinct solutions.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Three solutions for Emden-Fowler problems
Corollary
Assume that d and s are two constants such that 1− d < s < 0.Further, let K ∈ C∞(Sd) be a positive function and f : R→ R as inthe previous Corollary. Then, for each parameter λ belonging to
Λs,d(γ,δ) :=
s(1− s− d)ωdδ2
2F (δ)‖K‖L1(Sd)
,s(1− s− d)ωd
2‖K‖∞(a1K?
1
γ+ a2K
?2γ
q−2) ,
the following problem
−∆u = λ|x|s−2K(x/|x|)f(|x|−su), x ∈ Rd+1 \ 0, (Fλ)
admits at least three distinct solutions.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Example and Application
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Example
Let (M, g) be a compact d-dimensional (d ≥ 3) Riemannian manifoldwithout boundary, fix q ∈]2, 2d/(d− 2)[ and let K ∈ C∞(M) be apositive function. Moreover, let h : R→ R be the function defined by
h(t) :=
1 + |t|q−1 if |t| ≤ r
(1 + r2)(1 + rq−1)
1 + t2if |t| > r,
where r is a fixed constant such that
r > max
( 2
Volg(M)
)1/2
, q1q−2
( ‖K‖∞‖K‖L1(M)
(K1 +K2)) 1q−2
. (6)
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Example
Let (M, g) be a compact d-dimensional (d ≥ 3) Riemannian manifoldwithout boundary, fix q ∈]2, 2d/(d− 2)[ and let K ∈ C∞(M) be apositive function. Moreover, let h : R→ R be the function defined by
h(t) :=
1 + |t|q−1 if |t| ≤ r
(1 + r2)(1 + rq−1)
1 + t2if |t| > r,
where r is a fixed constant such that
r > max
( 2
Volg(M)
)1/2
, q1q−2
( ‖K‖∞‖K‖L1(M)
(K1 +K2)) 1q−2
. (6)
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Example
From our Theorem, for each parameter
λ ∈]
qr2 Volg(M)
2(qr + rq)‖K‖L1(M),
Volg(M)
2‖K‖∞(K1 +K2)
[,
the following problem
−∆gw + w = λK(σ)h(w), σ ∈M, w ∈ H21 (M),
possesses at least three nontrivial solutions.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Example
From our Theorem, for each parameter
λ ∈]
qr2 Volg(M)
2(qr + rq)‖K‖L1(M),
Volg(M)
2‖K‖∞(K1 +K2)
[,
the following problem
−∆gw + w = λK(σ)h(w), σ ∈M, w ∈ H21 (M),
possesses at least three nontrivial solutions.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Three solutions for Elliptic problems
We just mention that similar results for elliptic problems on boundeddomains of the Euclidean space are contained in
G. Bonanno, —–
Three weak solutions for elliptic Dirichlet problems, J. Math. Anal.Appl., in press.
and
G. D’Aguı, —–
Three non-zero solutions for elliptic Neumann problems, Analysis andApplications, 2010, 1-9.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Three solutions for Elliptic problems
We just mention that similar results for elliptic problems on boundeddomains of the Euclidean space are contained in
G. Bonanno, —–
Three weak solutions for elliptic Dirichlet problems, J. Math. Anal.Appl., in press.
and
G. D’Aguı, —–
Three non-zero solutions for elliptic Neumann problems, Analysis andApplications, 2010, 1-9.
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
PreliminariesAbstract resultMain ResultsThree solutions on the sphereAn Example
Three solutions for Elliptic problems
We just mention that similar results for elliptic problems on boundeddomains of the Euclidean space are contained in
G. Bonanno, —–
Three weak solutions for elliptic Dirichlet problems, J. Math. Anal.Appl., in press.
and
G. D’Aguı, —–
Three non-zero solutions for elliptic Neumann problems, Analysis andApplications, 2010, 1-9.
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
Infinitely many weak solutions for Elliptic problems
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
Let X be a reflexive real Banach space, let Φ,Ψ : X → R be twoGateaux differentiable functionals such that Φ is strongly continuous,sequentially weakly lower semicontinuous and coercive and Ψ issequentially weakly upper semicontinuous. For every r > infX Φ, put
ϕ(r) := infu∈Φ−1(]−∞,r[)
(supv∈Φ−1(]−∞,r[) Ψ(v)
)−Ψ(u)
r − Φ(u)
andγ := lim inf
r→+∞ϕ(r), δ := lim inf
r→(infX Φ)+ϕ(r).
Then, one has
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
Let X be a reflexive real Banach space, let Φ,Ψ : X → R be twoGateaux differentiable functionals such that Φ is strongly continuous,sequentially weakly lower semicontinuous and coercive and Ψ issequentially weakly upper semicontinuous. For every r > infX Φ, put
ϕ(r) := infu∈Φ−1(]−∞,r[)
(supv∈Φ−1(]−∞,r[) Ψ(v)
)−Ψ(u)
r − Φ(u)
andγ := lim inf
r→+∞ϕ(r), δ := lim inf
r→(infX Φ)+ϕ(r).
Then, one has
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
Theorem (G. Bonanno,—–; Bound. Value Probl. 2009)
(a) For every r > infX Φ and every λ ∈]0, 1
ϕ(r)
[, the restriction of the
functional Iλ := Φ− λΨ to Φ−1(]−∞, r[) admits a global minimum,which is a critical point (local minimum) of Iλ in X.
(b) If γ < +∞ then, for each λ ∈]0, 1
γ
[, the following alternative holds:
either(b1) Iλ possesses a global minimum,or(b2) there is a sequence un of critical points (local minima) of Iλsuch that limn→+∞ Φ(un) = +∞.
(c) If δ < +∞ then, for each λ ∈]0, 1
δ
[, the following alternative holds:
either(c1) there is a global minimum of Φ which is a local minimum of Iλ,or(c2) there is a sequence un of pairwise distinct critical points (localminima) of Iλ which weakly converges to a global minimum of Φ, withlimn→+∞ Φ(un) = infX Φ.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
Theorem (G. Bonanno,—–; Bound. Value Probl. 2009)
(a) For every r > infX Φ and every λ ∈]0, 1
ϕ(r)
[, the restriction of the
functional Iλ := Φ− λΨ to Φ−1(]−∞, r[) admits a global minimum,which is a critical point (local minimum) of Iλ in X.
(b) If γ < +∞ then, for each λ ∈]0, 1
γ
[, the following alternative holds:
either(b1) Iλ possesses a global minimum,or(b2) there is a sequence un of critical points (local minima) of Iλsuch that limn→+∞ Φ(un) = +∞.
(c) If δ < +∞ then, for each λ ∈]0, 1
δ
[, the following alternative holds:
either(c1) there is a global minimum of Φ which is a local minimum of Iλ,or(c2) there is a sequence un of pairwise distinct critical points (localminima) of Iλ which weakly converges to a global minimum of Φ, withlimn→+∞ Φ(un) = infX Φ.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
We point out that this result is a refinement of Theorem 2.5 in
B. Ricceri (2000)
A general variational principle and some of its applications, J.Comput. Appl. Math. 113, 401-410
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
We point out that this result is a refinement of Theorem 2.5 in
B. Ricceri (2000)
A general variational principle and some of its applications, J.Comput. Appl. Math. 113, 401-410
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
Theorem (G. Bonanno,—–; Proc. Roy. Soc. Edinburgh, A 2009)
Let f : R→ R be a continuous non-negative function and p > N . Put
σ(N, p) := infµ∈]0,1[
1− µN
µN (1− µ)p, τ := sup
x∈Ωdist(x, ∂Ω),
m :=N− 1p
√π
[Γ
(1 +
N
2
)] 1N(p− 1
p−N
)1− 1p
|Ω|1N− 1p ,
and κ :=τp
mp|Ω|σ(N, p). Assume that
lim infξ→+∞
F (ξ)
ξp< κ lim sup
ξ→+∞
F (ξ)
ξp. (g)
Then, for each λ ∈] σ(N, p)
pτp lim supξ→+∞
F (ξ)
ξp
,1
mpp|Ω| lim infξ→+∞
F (ξ)
ξp
[, the problem
(Dfλ) admits a sequence of positive weak solutions which is unbounded in
W 1,p0 (Ω).
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
Theorem (G. Bonanno,—–; Proc. Roy. Soc. Edinburgh, A 2009)
Let f : R→ R be a continuous non-negative function and p > N . Put
σ(N, p) := infµ∈]0,1[
1− µN
µN (1− µ)p, τ := sup
x∈Ωdist(x, ∂Ω),
m :=N− 1p
√π
[Γ
(1 +
N
2
)] 1N(p− 1
p−N
)1− 1p
|Ω|1N− 1p ,
and κ :=τp
mp|Ω|σ(N, p). Assume that
lim infξ→+∞
F (ξ)
ξp< κ lim sup
ξ→+∞
F (ξ)
ξp. (g)
Then, for each λ ∈] σ(N, p)
pτp lim supξ→+∞
F (ξ)
ξp
,1
mpp|Ω| lim infξ→+∞
F (ξ)
ξp
[, the problem
(Dfλ) admits a sequence of positive weak solutions which is unbounded in
W 1,p0 (Ω).
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
Assumption (g) could be replaced by
(g′) There exist two sequences an and bn such that
0 ≤ an <1
mµN/pσ1/p(N, p)
τ ω1/pτ
bn
for every n ∈ N and limn→+∞
bn = +∞ such that
limn→+∞
|Ω|F (bn)− µNωτF (an)
bpn −mpapnωτσ(N, p)
τpµN
< κ|Ω| lim supξ→+∞
F (ξ)
ξp,
where
ωτ := τNπN/2
Γ(
1 +N
2
) .
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
Assumption (g) could be replaced by
(g′) There exist two sequences an and bn such that
0 ≤ an <1
mµN/pσ1/p(N, p)
τ ω1/pτ
bn
for every n ∈ N and limn→+∞
bn = +∞ such that
limn→+∞
|Ω|F (bn)− µNωτF (an)
bpn −mpapnωτσ(N, p)
τpµN
< κ|Ω| lim supξ→+∞
F (ξ)
ξp,
where
ωτ := τNπN/2
Γ(
1 +N
2
) .
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
We point out that the results contained in
F. Cammaroto, A. Chinnı and B. Di Bella (2005)
Infinitely many solutions for the Dirichlet problem involving thep-Laplacian, Nonlinear Anal. 61 (2005) 41-49
are direct consequences of main Theorem by using condition (g′).
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
We point out that the results contained in
F. Cammaroto, A. Chinnı and B. Di Bella (2005)
Infinitely many solutions for the Dirichlet problem involving thep-Laplacian, Nonlinear Anal. 61 (2005) 41-49
are direct consequences of main Theorem by using condition (g′).
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
Example
Assume that p ∈ N and 1 ≤ N < p. Put
an :=2n!(n+ 2)!− 1
4(n+ 1)!, bn :=
2n!(n+ 2)! + 1
4(n+ 1)!,
for every n ∈ N.Let gn be a sequence of non-negative functions such that:
g1) gn ∈ C0([an, bn]) such that gn(an) = gn(bn) = 0 for every n ∈ N;
g2)
∫ bn
an
gn(t)dt 6= 0 for every n ∈ N.
For instance, we can choose the sequence gn as follows
gn(ξ) :=
√1
16(n+ 1)!2−(ξ − n!(n+ 2)
2
)2
, ∀n ∈ N.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
Example
Assume that p ∈ N and 1 ≤ N < p. Put
an :=2n!(n+ 2)!− 1
4(n+ 1)!, bn :=
2n!(n+ 2)! + 1
4(n+ 1)!,
for every n ∈ N.Let gn be a sequence of non-negative functions such that:
g1) gn ∈ C0([an, bn]) such that gn(an) = gn(bn) = 0 for every n ∈ N;
g2)
∫ bn
an
gn(t)dt 6= 0 for every n ∈ N.
For instance, we can choose the sequence gn as follows
gn(ξ) :=
√1
16(n+ 1)!2−(ξ − n!(n+ 2)
2
)2
, ∀n ∈ N.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
Example
Define the function f : R→ R as follows
f(ξ) :=
[(n+ 1)!p − n!p]
gn(ξ)∫ bn
an
gn(t)dt
if ξ ∈∞⋃n=1
[an, bn]
0 otherwise.
From our result, for each λ >σ(N, p)
p2pτpthe problem
−∆pu = λf(u) in Ωu|∂Ω = 0,
(Dfλ)
possesses a sequence of weak solutions which is unbounded inW 1,p
0 (Ω).
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
Example
Define the function f : R→ R as follows
f(ξ) :=
[(n+ 1)!p − n!p]
gn(ξ)∫ bn
an
gn(t)dt
if ξ ∈∞⋃n=1
[an, bn]
0 otherwise.
From our result, for each λ >σ(N, p)
p2pτpthe problem
−∆pu = λf(u) in Ωu|∂Ω = 0,
(Dfλ)
possesses a sequence of weak solutions which is unbounded inW 1,p
0 (Ω).
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
We observe that in the very interesting paper
P. Omari and F. Zanolin (1996)
Infinitely many solutions of a quasilinear elliptic problem with anoscillatory potential, Commun. Partial Differential Equations 21 (5-6)
the authors, assuming that f(0) ≥ 0 and that
lim infξ→+∞
F (ξ)
ξp= 0 and lim sup
ξ→+∞
F (ξ)
ξp= +∞,
proved problem −∆pu = f(u) in Ω,u|∂Ω = 0.
admits a sequence of non-negative solutions which is unbounded inC0(Ω).
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
We observe that in the very interesting paper
P. Omari and F. Zanolin (1996)
Infinitely many solutions of a quasilinear elliptic problem with anoscillatory potential, Commun. Partial Differential Equations 21 (5-6)
the authors, assuming that f(0) ≥ 0 and that
lim infξ→+∞
F (ξ)
ξp= 0 and lim sup
ξ→+∞
F (ξ)
ξp= +∞,
proved problem −∆pu = f(u) in Ω,u|∂Ω = 0.
admits a sequence of non-negative solutions which is unbounded inC0(Ω).
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
Infinitely many positive weak solutions for quasilinear elliptic systemsinvolving the (p, q)–Laplacian
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
Theorem (G. Bonanno,—–, D. O’Regan; Math. Comput. Modelling2010)
Let Ω ⊂ R2 be a non-empty bounded open set with boundary of class C1. Letf, g : R2 → R be two positive C0(R2)-functions such that the differential1-form ω := f(ξ, η)dξ + g(ξ, η)dη is integrable and let F be a primitive of ωsuch that F (0, 0) = 0. Fix p, q > 2, with p ≤ q, and assume that
lim infy→+∞
F (y, y)
yp= 0; lim sup
y→+∞
F (y, y)
yq= +∞.
Then, the problem −∆pu = f(u, v) in Ω,−∆qv = g(u, v) in Ω,u|∂Ω = 0,v|∂Ω = 0,
(S?)
admits a sequence (un, vn) of weak solutions which is unbounded inW 1,p
0 (Ω)×W 1,q0 (Ω) and such that un(x) > 0, vn(x) > 0 for all x ∈ Ω and
for all n ∈ N.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
Theorem (G. Bonanno,—–, D. O’Regan; Math. Comput. Modelling2010)
Let Ω ⊂ R2 be a non-empty bounded open set with boundary of class C1. Letf, g : R2 → R be two positive C0(R2)-functions such that the differential1-form ω := f(ξ, η)dξ + g(ξ, η)dη is integrable and let F be a primitive of ωsuch that F (0, 0) = 0. Fix p, q > 2, with p ≤ q, and assume that
lim infy→+∞
F (y, y)
yp= 0; lim sup
y→+∞
F (y, y)
yq= +∞.
Then, the problem −∆pu = f(u, v) in Ω,−∆qv = g(u, v) in Ω,u|∂Ω = 0,v|∂Ω = 0,
(S?)
admits a sequence (un, vn) of weak solutions which is unbounded inW 1,p
0 (Ω)×W 1,q0 (Ω) and such that un(x) > 0, vn(x) > 0 for all x ∈ Ω and
for all n ∈ N.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
Elliptic problems and Orlicz-Sobolev spaces
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
The problem
In this framework we have studied the non-homogeneous problem(under either Neumann or Dirichlet boundary conditions)
−div(α(|∇u|)∇u) = λf(x, u) in Ω,
where, Ω is a bounded domain in RN (N ≥ 3) with smooth boundary∂Ω, while f : Ω× R→ R is a continuous function, λ is a positiveparameter and α : (0,∞)→ R is such that the mapping ϕ : R→ Rdefined by
ϕ(t) =
α(|t|)t, for t 6= 00, for t = 0 ,
is an odd, strictly increasing homeomorphism from R onto R.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
The problem
In this framework we have studied the non-homogeneous problem(under either Neumann or Dirichlet boundary conditions)
−div(α(|∇u|)∇u) = λf(x, u) in Ω,
where, Ω is a bounded domain in RN (N ≥ 3) with smooth boundary∂Ω, while f : Ω× R→ R is a continuous function, λ is a positiveparameter and α : (0,∞)→ R is such that the mapping ϕ : R→ Rdefined by
ϕ(t) =
α(|t|)t, for t 6= 00, for t = 0 ,
is an odd, strictly increasing homeomorphism from R onto R.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
Some results
G. Bonanno,—–, V. Radulescu
Infinitely many solutions for a class of nonlinear eigenvalue problemsin Orlicz-Sobolev spaces, C. R. Acad. Sci. Paris, Ser. I 349 (2011)263-268.
G. Bonanno,—–, V. Radulescu
Arbitrarily small weak solutions for a nonlinear eigenvalue problem inOrlicz-Sobolev spaces, Monatsh Math. (2011), 1-14.
G. Bonanno,—–, V. Radulescu
Existence of three solutions for a non-homogeneous Neumann problemthrough Orlicz-Sobolev spaces, Nonlinear Anal. (in press).
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
Some results
G. Bonanno,—–, V. Radulescu
Infinitely many solutions for a class of nonlinear eigenvalue problemsin Orlicz-Sobolev spaces, C. R. Acad. Sci. Paris, Ser. I 349 (2011)263-268.
G. Bonanno,—–, V. Radulescu
Arbitrarily small weak solutions for a nonlinear eigenvalue problem inOrlicz-Sobolev spaces, Monatsh Math. (2011), 1-14.
G. Bonanno,—–, V. Radulescu
Existence of three solutions for a non-homogeneous Neumann problemthrough Orlicz-Sobolev spaces, Nonlinear Anal. (in press).
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
Some results
G. Bonanno,—–, V. Radulescu
Infinitely many solutions for a class of nonlinear eigenvalue problemsin Orlicz-Sobolev spaces, C. R. Acad. Sci. Paris, Ser. I 349 (2011)263-268.
G. Bonanno,—–, V. Radulescu
Arbitrarily small weak solutions for a nonlinear eigenvalue problem inOrlicz-Sobolev spaces, Monatsh Math. (2011), 1-14.
G. Bonanno,—–, V. Radulescu
Existence of three solutions for a non-homogeneous Neumann problemthrough Orlicz-Sobolev spaces, Nonlinear Anal. (in press).
Giovanni Molica Bisci On some variational problems in...
![Page 110: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/110.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
Abstract resultInfinitely many positive weak solutions for Elliptic problemsElliptic problems and Orlicz-Sobolev spaces
Some results
G. Bonanno,—–, V. Radulescu
Infinitely many solutions for a class of nonlinear eigenvalue problemsin Orlicz-Sobolev spaces, C. R. Acad. Sci. Paris, Ser. I 349 (2011)263-268.
G. Bonanno,—–, V. Radulescu
Arbitrarily small weak solutions for a nonlinear eigenvalue problem inOrlicz-Sobolev spaces, Monatsh Math. (2011), 1-14.
G. Bonanno,—–, V. Radulescu
Existence of three solutions for a non-homogeneous Neumann problemthrough Orlicz-Sobolev spaces, Nonlinear Anal. (in press).
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Infinitely many weak solutionsfor the Sierpinski fractal
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
The problem
We study the following Dirichlet problem∆u(x) + a(x)u(x) = λg(x)f(u(x)) x ∈ V \ V0,u|V0
= 0,(Sf,ga,λ)
where V stands for the Sierpinski gasket, V0 is its intrinsic boundary,∆ denotes the weak Laplacian on V and λ is a positive real parameter.We assume that f : IR→ IR is a continuous function and that thevariable potentials a, g : V → IR satisfy the following conditions:
(h1) a ∈ L1(V, µ) and a ≤ 0 almost everywhere in V ;
(h2) g ∈ C(V ) with g ≤ 0 and such that the restriction of g to everyopen subset of V is not identically zero.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
The problem
We study the following Dirichlet problem∆u(x) + a(x)u(x) = λg(x)f(u(x)) x ∈ V \ V0,u|V0
= 0,(Sf,ga,λ)
where V stands for the Sierpinski gasket, V0 is its intrinsic boundary,∆ denotes the weak Laplacian on V and λ is a positive real parameter.We assume that f : IR→ IR is a continuous function and that thevariable potentials a, g : V → IR satisfy the following conditions:
(h1) a ∈ L1(V, µ) and a ≤ 0 almost everywhere in V ;
(h2) g ∈ C(V ) with g ≤ 0 and such that the restriction of g to everyopen subset of V is not identically zero.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
The problem
The Sierpinski gasket has the origin in a paper by Sierpinski. In avery simple manner, this fractal domain can be described as a subsetof the plane obtained from an equilateral triangle by removing theopen middle inscribed equilateral triangle of 1/4 of the area, removingthe corresponding open triangle from each of the three constituenttriangles and continuing in this way. This fractal can also be obtainedas the closure of the set of vertices arising in this construction.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
The problem
The Sierpinski gasket has the origin in a paper by Sierpinski. In avery simple manner, this fractal domain can be described as a subsetof the plane obtained from an equilateral triangle by removing theopen middle inscribed equilateral triangle of 1/4 of the area, removingthe corresponding open triangle from each of the three constituenttriangles and continuing in this way. This fractal can also be obtainedas the closure of the set of vertices arising in this construction.
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
The problem
Over the years, the Sierpinski gasket showed both to be extremelyuseful in representing roughness in nature and man’s works. Thisgeometrical object is one of the most familiar examples of fractaldomains and it gives insight into the turbulence of fluids. Accordingto Kigami this notion was introduced by Mandelbrot in 1977 todesign a class of mathematical objects which are not collections ofsmooth components. We refer to Strichartz for an elementaryintroduction to this subject and to Strichartz for importantapplications to differential equations on fractals.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
The problem
Over the years, the Sierpinski gasket showed both to be extremelyuseful in representing roughness in nature and man’s works. Thisgeometrical object is one of the most familiar examples of fractaldomains and it gives insight into the turbulence of fluids. Accordingto Kigami this notion was introduced by Mandelbrot in 1977 todesign a class of mathematical objects which are not collections ofsmooth components. We refer to Strichartz for an elementaryintroduction to this subject and to Strichartz for importantapplications to differential equations on fractals.
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
The problem
The study of the Laplacian on fractals was originated in physicsliterature, where so-called spectral decimation method was developedin Alexander and Rammal et al.. The Laplacian on the Sierpinskigasket was first constructed as the generator of a diffusion process byKusuoka and Goldstein.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
The problem
The study of the Laplacian on fractals was originated in physicsliterature, where so-called spectral decimation method was developedin Alexander and Rammal et al.. The Laplacian on the Sierpinskigasket was first constructed as the generator of a diffusion process byKusuoka and Goldstein.
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
The problem
Finally, we recall that Breckner, Radulescu and Varga in
B.E. Breckner, V. Radulescu and Cs. Varga
Infinitely many solutions for the Dirichlet problem on the Sierpinskigasket, Analysis and Applications, in press.
proved the existence of infinitely many solutions of problem (Sf,ga,λ)under the key assumption, among others, that the non-linearity f isnon-positive in a sequence of positive intervals. We point out that ourresults are mutually independent compared to those achieved in theabove mentioned manuscript.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
The problem
Finally, we recall that Breckner, Radulescu and Varga in
B.E. Breckner, V. Radulescu and Cs. Varga
Infinitely many solutions for the Dirichlet problem on the Sierpinskigasket, Analysis and Applications, in press.
proved the existence of infinitely many solutions of problem (Sf,ga,λ)under the key assumption, among others, that the non-linearity f isnon-positive in a sequence of positive intervals. We point out that ourresults are mutually independent compared to those achieved in theabove mentioned manuscript.
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Further References
M. Mihailescu and V. Radulescu
Variational analysis on fractals: a nonlinear Dirichlet problem on theSierpinski gasket, submitted.
B.E. Breckner, D. Repovs and Cs. Varga
On the existence of three solutions for the Dirichlet problem on theSierpinski gasket, Nonlinear Anal. 73 (2010), 2980–2990.
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Further References
M. Mihailescu and V. Radulescu
Variational analysis on fractals: a nonlinear Dirichlet problem on theSierpinski gasket, submitted.
B.E. Breckner, D. Repovs and Cs. Varga
On the existence of three solutions for the Dirichlet problem on theSierpinski gasket, Nonlinear Anal. 73 (2010), 2980–2990.
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Further References
M. Mihailescu and V. Radulescu
Variational analysis on fractals: a nonlinear Dirichlet problem on theSierpinski gasket, submitted.
B.E. Breckner, D. Repovs and Cs. Varga
On the existence of three solutions for the Dirichlet problem on theSierpinski gasket, Nonlinear Anal. 73 (2010), 2980–2990.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Abstract setting
Denote by C(V ) the space of real-valued continuous functions on Vand by
C0(V ) := u ∈ C(V ) | u|V0= 0.
The spaces C(V ) and C0(V ) are endowed with the usual supremumnorm || · ||∞. For a function u : V → IR and for m ∈ IN let
Wm(u) =
(N + 2
N
)m ∑x,y∈Vm|x−y|=2−m
(u(x)− u(y))2. (7)
We have Wm(u) ≤Wm+1(u) for very natural m, so we can put
W (u) = limm→∞
Wm(u). (8)
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Abstract setting
Denote by C(V ) the space of real-valued continuous functions on Vand by
C0(V ) := u ∈ C(V ) | u|V0= 0.
The spaces C(V ) and C0(V ) are endowed with the usual supremumnorm || · ||∞. For a function u : V → IR and for m ∈ IN let
Wm(u) =
(N + 2
N
)m ∑x,y∈Vm|x−y|=2−m
(u(x)− u(y))2. (7)
We have Wm(u) ≤Wm+1(u) for very natural m, so we can put
W (u) = limm→∞
Wm(u). (8)
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Abstract setting
DefineH1
0 (V ) := u ∈ C0(V ) |W (u) <∞.
It turns out that H10 (V ) is a dense linear subset of L2(V, µ) equipped
with the || · ||2 norm. We now endow H10 (V ) with the norm
||u|| =√W (u).
In fact, there is an inner product defining this norm: for u, v ∈ H10 (V )
and m ∈ IN let
Wm(u, v) =
(N + 2
N
)m ∑x,y∈Vm|x−y|=2−m
(u(x)− u(y))(v(x)− v(y)).
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Abstract setting
DefineH1
0 (V ) := u ∈ C0(V ) |W (u) <∞.
It turns out that H10 (V ) is a dense linear subset of L2(V, µ) equipped
with the || · ||2 norm. We now endow H10 (V ) with the norm
||u|| =√W (u).
In fact, there is an inner product defining this norm: for u, v ∈ H10 (V )
and m ∈ IN let
Wm(u, v) =
(N + 2
N
)m ∑x,y∈Vm|x−y|=2−m
(u(x)− u(y))(v(x)− v(y)).
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Abstract setting
PutW(u, v) = lim
m→∞Wm(u, v).
Then W(u, v) ∈ IR and the space H10 (V ), equipped with the inner
product W, which induces the norm || · ||, becomes a real Hilbertspace.Moreover,
||u||∞ ≤ (2N + 3)||u||, for every u ∈ H10 (V ), (9)
and the embedding
(H10 (V ), || · ||) → (C0(V ), || · ||∞) (10)
is compact. We refer to Fukushima and Shima for further details.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Abstract setting
PutW(u, v) = lim
m→∞Wm(u, v).
Then W(u, v) ∈ IR and the space H10 (V ), equipped with the inner
product W, which induces the norm || · ||, becomes a real Hilbertspace.Moreover,
||u||∞ ≤ (2N + 3)||u||, for every u ∈ H10 (V ), (9)
and the embedding
(H10 (V ), || · ||) → (C0(V ), || · ||∞) (10)
is compact. We refer to Fukushima and Shima for further details.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Main result
Theorem (G. Bonanno,—–, V. Radulescu; preprint 2011)
Let f : R→ R be a non-negative continuous function. Assume that
lim infξ→0+
F (ξ)
ξ2< +∞ and lim sup
ξ→0+
F (ξ)
ξ2= +∞. (h0)
Then, for every
λ ∈
0,− 1
2(2N + 3)2
(∫V
g(x)dµ
)lim infξ→0+
F (ξ)
ξ2
,there exists a sequence vn of pairwise distinct weak solutions of
problem (Sf,ga,λ) such that limn→∞
‖vn‖ = limn→∞
‖vn‖∞ = 0.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Main result
Theorem (G. Bonanno,—–, V. Radulescu; preprint 2011)
Let f : R→ R be a non-negative continuous function. Assume that
lim infξ→0+
F (ξ)
ξ2< +∞ and lim sup
ξ→0+
F (ξ)
ξ2= +∞. (h0)
Then, for every
λ ∈
0,− 1
2(2N + 3)2
(∫V
g(x)dµ
)lim infξ→0+
F (ξ)
ξ2
,there exists a sequence vn of pairwise distinct weak solutions of
problem (Sf,ga,λ) such that limn→∞
‖vn‖ = limn→∞
‖vn‖∞ = 0.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Remark
We explicitly observe that our result also holds for sign-changingfunctions f : R→ IR just requiring that
−∞ < lim infξ→0+
F (ξ)
ξ2, lim inf
ξ→0+
maxt∈[−ξ,ξ] F (t)
ξ2< +∞,
and
lim supξ→0+
F (ξ)
ξ2= +∞,
instead of condition (h0).
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Remark
We explicitly observe that our result also holds for sign-changingfunctions f : R→ IR just requiring that
−∞ < lim infξ→0+
F (ξ)
ξ2, lim inf
ξ→0+
maxt∈[−ξ,ξ] F (t)
ξ2< +∞,
and
lim supξ→0+
F (ξ)
ξ2= +∞,
instead of condition (h0).
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Remark
In this setting, for every
λ ∈
0,− 1
2(2N + 3)2
(∫V
g(x)dµ
)lim infξ→0+
maxt∈[−ξ,ξ] F (t)
ξ2
,there exists a sequence vn of pairwise distinct weak solutions of
problem (Sf,ga,λ) such that limn→∞
‖vn‖ = limn→∞
‖vn‖∞ = 0.
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Remark
In this setting, for every
λ ∈
0,− 1
2(2N + 3)2
(∫V
g(x)dµ
)lim infξ→0+
maxt∈[−ξ,ξ] F (t)
ξ2
,there exists a sequence vn of pairwise distinct weak solutions of
problem (Sf,ga,λ) such that limn→∞
‖vn‖ = limn→∞
‖vn‖∞ = 0.
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Remark
An analogous conclusion can be achieved if the potential F has thesame behaviour at infinity instead of at zero obtaining, in this case,the existence of a sequence of weak solutions which is unbounded inH1
0 (V )
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Remark
An analogous conclusion can be achieved if the potential F has thesame behaviour at infinity instead of at zero obtaining, in this case,the existence of a sequence of weak solutions which is unbounded inH1
0 (V )
Giovanni Molica Bisci On some variational problems in...
![Page 139: On some variational problems in Riemannian and Fractal ... Bisci.pdf · Bonanno and V. R adulescu on some variational problems arising from Geometry. More precisely, in the rst part](https://reader034.vdocuments.mx/reader034/viewer/2022042218/5ec3a1cf65b26638a17fbf9b/html5/thumbnails/139.jpg)
IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Remark
In conclusion, for every
λ ∈
0,− 1
2(2N + 3)2
(∫V
g(x)dµ
)lim infξ→+∞
maxt∈[−ξ,ξ] F (t)
ξ2
,there exists a sequence vn of weak solutions of problem (Sf,ga,λ)
which is unbounded in H10 (V ).
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Remark
In conclusion, for every
λ ∈
0,− 1
2(2N + 3)2
(∫V
g(x)dµ
)lim infξ→+∞
maxt∈[−ξ,ξ] F (t)
ξ2
,there exists a sequence vn of weak solutions of problem (Sf,ga,λ)
which is unbounded in H10 (V ).
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Example
Seta1 := 2, an+1 := (an)
32 ,
for every n ∈ N and S :=⋃n≥0]an+1 − 1, an+1 + 1[. Define the
continuous function h : R→ R as follows
h(t) :=
e
1(t−(an+1−1))(t−(an+1+1))
+1 2(an+1−t)(an+1)3
(t−(an+1−1))2(t−(an+1+1))2 if t ∈ S0 otherwise.
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Example
Seta1 := 2, an+1 := (an)
32 ,
for every n ∈ N and S :=⋃n≥0]an+1 − 1, an+1 + 1[. Define the
continuous function h : R→ R as follows
h(t) :=
e
1(t−(an+1−1))(t−(an+1+1))
+1 2(an+1−t)(an+1)3
(t−(an+1−1))2(t−(an+1+1))2 if t ∈ S0 otherwise.
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Example
Then
H(ξ) =
∫ ξ
0
h(t)dt =
(an+1)3e
1(ξ−(an+1−1))(ξ−(an+1+1))
+1if ξ ∈ S
0 otherwise,
and H(an+1) = (an+1)3 for every n ∈ N.Hence, one has
lim supξ→+∞
H(ξ)
ξ2= +∞.
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Example
Then
H(ξ) =
∫ ξ
0
h(t)dt =
(an+1)3e
1(ξ−(an+1−1))(ξ−(an+1+1))
+1if ξ ∈ S
0 otherwise,
and H(an+1) = (an+1)3 for every n ∈ N.Hence, one has
lim supξ→+∞
H(ξ)
ξ2= +∞.
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Example
On the other hand, by choosing xn = an+1 − 1 for every n ∈ N, onehas max
ξ∈[−xn,xn]H(ξ) = (an)3 for every n ∈ N. Moreover
limn→∞
maxξ∈[−xn,xn]H(ξ)
xn2= 1
and, by a direct computation, it follows that
lim infξ→+∞
maxt∈[−ξ,ξ]H(t)
ξ2= 1.
Hence,
0 ≤ lim infξ→+∞
H(ξ)
ξ2≤ lim inf
ξ→+∞
maxt∈[−ξ,ξ]H(t)
ξ2= 1, lim sup
ξ→+∞
H(ξ)
ξ2= +∞.
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Example
On the other hand, by choosing xn = an+1 − 1 for every n ∈ N, onehas max
ξ∈[−xn,xn]H(ξ) = (an)3 for every n ∈ N. Moreover
limn→∞
maxξ∈[−xn,xn]H(ξ)
xn2= 1
and, by a direct computation, it follows that
lim infξ→+∞
maxt∈[−ξ,ξ]H(t)
ξ2= 1.
Hence,
0 ≤ lim infξ→+∞
H(ξ)
ξ2≤ lim inf
ξ→+∞
maxt∈[−ξ,ξ]H(t)
ξ2= 1, lim sup
ξ→+∞
H(ξ)
ξ2= +∞.
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Example
For each parameter λ belonging to]0,
1
2(2N + 3)2
[,
the following problem∆u(x) + λh(u(x)) = u(x) x ∈ V \ V0,u|V0
= 0,(Shλ)
possesses an unbounded sequence of strong solutions.
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Example
For each parameter λ belonging to]0,
1
2(2N + 3)2
[,
the following problem∆u(x) + λh(u(x)) = u(x) x ∈ V \ V0,u|V0
= 0,(Shλ)
possesses an unbounded sequence of strong solutions.
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Further perspectives
To study the existence of multiple solutions for non-homogeneousNeumann problem on Riemannian manifolds with boundary;
To find existence results for Dirichlet problems on Orlicz-Sobolevspaces;
To check existence results for Dirichlet problems on more generalfractal domains.
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Further perspectives
To study the existence of multiple solutions for non-homogeneousNeumann problem on Riemannian manifolds with boundary;
To find existence results for Dirichlet problems on Orlicz-Sobolevspaces;
To check existence results for Dirichlet problems on more generalfractal domains.
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
The problemAbstract frameworkMain Result
Further perspectives
To study the existence of multiple solutions for non-homogeneousNeumann problem on Riemannian manifolds with boundary;
To find existence results for Dirichlet problems on Orlicz-Sobolevspaces;
To check existence results for Dirichlet problems on more generalfractal domains.
Giovanni Molica Bisci On some variational problems in...
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IndexAbstract
A problem on Riemannian manifoldsInfinitely many solutions
Infinitely many solutions for the Sierpinski fractalReferences
References
G. Bonanno, G. Molica Bisci and V. Radulescu, Multiplesolutions of generalized Yamabe equations on Riemannianmanifolds and applications to Emden-Fowler problems, NonlinearAnalysis: Real World Applications 12 (2011) 2656-2665.
G. Bonanno, G. Molica Bisci and V. Radulescu, Variationalanalysis for a nonlinear elliptic problem on the Sierpinski gasket,submitted (2011).
Giovanni Molica Bisci On some variational problems in...