Your search keyword '"35J70"' showing total 1,688 results

1. Singular elliptic problem with super-quadratic growth in the gradient.

Author

Boukarabila, Siham, Primo, Ana, and Younes, Abdelbadie

Subjects

*NORMED rings, *HYPOTHESIS

Abstract

In this paper we analyze the existence of solution to the homogeneous Dirichlet for a nonlinear elliptic singular problem, $$\begin{align*} \begin{cases} -\Delta u=\dfrac{|\nabla u|^q}{|u|^\alpha}+\lambda f & {\rm in}\ \Omega, \\ u=0 & {\rm on}\ \partial\Omega,\\ \end{cases} \end{align*} $$ { − Δ u = | ∇ u | q | u | α + λf in Ω , u = 0 on ∂Ω , where $ N\ge 2 $ N ≥ 2 , $ \Omega \subset \mathbb {R}^N $ Ω ⊂ R N is a bounded regular domain, q>2, $ \alpha α < q 2 , $ \lambda >0 $ λ > 0 and f is a nonnegative function belonging to a suitable Lebesgue space. Under additional hypotheses on the data, we are also able to show the uniqueness of the 'good' solution. [ABSTRACT FROM AUTHOR]

Published

2024

2. Liouville Theorems for a Class of Degenerate or Singular Monge–Ampère Equations.

Author

Wang, Ling and Zhou, Bin

Abstract

In this note, we classify solutions to a class of Monge–Ampère equations whose right hand side may be degenerate or singular in the half space. Solutions to these equations are special solutions to a class of fourth order equations, including the affine maximal hypersurface equation, in the half space. Both the Dirichlet boundary value and Neumann boundary value cases are considered. [ABSTRACT FROM AUTHOR]

Published

2024

3. Singular p(x)-Laplace Equations with Lower-Order Terms and a Hardy Potential.

Author

Benguetaib, Aicha, Khelifi, Hichem, and Ait-Mahiout, Karima

Abstract

The present paper is concerned by the study of a nonlinear elliptic equation which contains a Hardy potential, lower order term, singular term and L m (·) data. Our approach is based on approximating the initial problem with a non-singular problem that is well-posed. We then establish the necessary estimates to pass to the limit. [ABSTRACT FROM AUTHOR]

Published

2024

4. Numerical approximation of variational problems with orthotropic growth.

Author

Kh. Balci, Anna, Diening, Lars, and Salgado, Abner J.

Subjects

INTERPOLATION

Abstract

We consider the numerical approximation of variational problems with orthotropic growth, that is those where the integrand depends strongly on the coordinate directions with possibly different growth in each direction. Under realistic regularity assumptions we derive optimal error estimates. These estimates depend on the existence of an orthotropically stable interpolation operator. Over certain meshes we construct an orthotropically stable interpolant that is also a projection. Numerical experiments illustrate and explore the limits of our theory. [ABSTRACT FROM AUTHOR]

Published

2024

5. Existence of Weak Solutions for Weighted Robin Problem Involving p.-biharmonic operator.

Author

Kulak, Öznur, Aydin, Ismail, and Unal, Cihan

Abstract

Using Mountain Pass Theorem, we consider the existence of weak solutions of weighted Robin problem involving p. -biharmonic operator a x Δ p x 2 u = λ b (x) u q (x) - 2 u , i n Ω a (x) Δ u p (x) - 2 ∂ u ∂ υ + β (x) u p (x) - 2 u = 0 , o n ∂ Ω under some conditions in the space W a , b 2 , p (.) Ω. [ABSTRACT FROM AUTHOR]

Published

2024

6. The pressure of intricacy and average sample complexity for amenable group actions.

Author

Xiao, Zubiao and Huang, Jinna

Abstract

Let (X, G) be a G-system, where G is an infinite countable discrete amenable group and X is a compact metric space with a metric d. In this paper, we study the topological pressure of intricacy and average sample complexity for amenable group actions. We show that the topological pressure of strong sub-additive potential is equal to the pressure of intricacy and average sample complexity as taking supremum over open covers of X. We establish the definition of the pressure of intricacy and average sample complexity by using spanning sets and separated sets. In the last part, we show that the variational principle for pressure of intricacy and average sample complexity. [ABSTRACT FROM AUTHOR]

Published

2024

7. Elliptic equations with unbounded coefficient, convection term and intrinsic operator.

Author

Motreanu, Dumitru and Tornatore, Elisabetta

Abstract

The aim of the paper is to study a quasilinear Dirichlet problem driven by a p-Laplacian type operator with unbounded coefficient and exhibiting a convection term composed with an intrinsic operator. The existence of a bounded weak solution is established. Applications address equations with convolution, truncation, and inverse of p-Laplacian. [ABSTRACT FROM AUTHOR]

Published

2024

8. Entropy solutions of elliptic equation from two phase problems.

Author

Zhan, Huashui and Si, Xin

Subjects

*SOBOLEV spaces, *DIRICHLET problem, *PHASE space, *CONTINUOUS functions, *ENTROPY, *ELLIPTIC equations

Abstract

The Dirichlet problem of elliptic equation from two phase problems, b (u) − div (| ∇ u) | p (x) − 2 ∇ u + μ (x) | ∇ u | q (x) − 2 ∇ u) = f (x) in Ω, u = 0 on ∂Ω is considered, where Ω is a bounded domain with a smooth boundary in R N , b is a continuous and nondecreasing function. By the theory of the weighted variable Sobolev space, the existence and uniqueness of an entropy solution for L 1 -data f are proved. [ABSTRACT FROM AUTHOR]

Published

2024

9. Uniform estimates for conforming Galerkin method for anisotropic singularly perturbed elliptic problems.

Author

Maltese, David and Ogabi, Chokri

Subjects

*FINITE element method, *SINGULAR perturbations, *GALERKIN methods

Abstract

In this article, we study some anisotropic singular perturbations for a class of linear elliptic problems. A uniform estimates for conforming $ Q_1 $ Q 1 finite element method are derived, and some other results of convergence and regularity for the continuous problem are proved. The arguments are based on the tensorization trick and standard elliptic regularity theory tools. [ABSTRACT FROM AUTHOR]

Published

2024

10. Schauder estimates for Bessel operators.

Author

Metafune, Giorgio, Negro, Luigi, and Spina, Chiara

Subjects

*NEUMANN boundary conditions, *ELLIPTIC operators

Abstract

We prove Schauder estimates for elliptic and parabolic problems governed by the degenerate operator ℒ = Δ x + D y ⁢ y + c y ⁢ D y , in the half-space Ω = { (x , y) : x ∈ ℝ N , y > 0 } , under Neumann boundary conditions at y = 0 . [ABSTRACT FROM AUTHOR]

Published

2024

11. Gradient Estimates in the Whole Space for the Double Phase Problems by the Maximal Function Method.

Author

Zhang, Beilei and Ge, Bin

Abstract

Within this article, the maximal function method is used to establish the Calderón-Zygmund estimates for the weak solutions of a class of non-uniformly elliptic equations - div A (x , D u) = - div F (x , f) i n R n , where A (x , D u) ≈ | D u | p 1 - 2 + μ (x) | D u | p 2 - 2 , F (x , f) ≈ | f | p 1 - 2 + μ (x) | f | p 2 - 2 and 1 < p 1 < p 2 , 0 ≤ μ (·) ∈ C 0 , α (R n) , α ∈ (0 , 1 ] . The aforementioned problems arise as Euler-Lagrange equations for variational functionals that were originally presented and studied within the context of Homogenization and the Lavrentiev phenomenon by Marcellini (Arch Ration Mech Anal 105:267–284, 1989. ) and Zhikov (Izv Akad Nauk SSSR Ser Mat 29:33–66, 1987. ). They are distinctive in that they exhibit that the growth and ellipticity change between two distinct types of polynomial depending on the position. This feature is characteristic of strongly anisotropic materials. The contribution of this paper is closely tied to the significant advancements made by Colombo and Mingione (J Funct Anal 270:1416–1478, 2016. ) in the qualitative analysis of double phase problems, as well as the related techniques used by Zhang et al. (Ann Polon Math, 114:45–65, 2015. ). [ABSTRACT FROM AUTHOR]

Published

2024

12. Left-Invariance for Smooth Vector Fields and Applications.

Author

Biagi, Stefano, Bonfiglioli, Andrea, and Polidoro, Sergio

Abstract

Let X = { X 0 , … , X m } be a family of smooth vector fields on an open set Ω ⊆ R N . Motivated by applications to the PDE theory of Hörmander operators, for a suitable class of open sets Ω , we find necessary and sufficient conditions on X for the existence of a Lie group (Ω , ∗) such that the operator L = ∑ i = 1 m X i 2 + X 0 is left-invariant with respect to the operation ∗ . Our approach is constructive, as the group law is constructed by means of the solution of a suitable ODE naturally associated to vector fields in X. We provide an application to a partial differential operator appearing in the Finance. [ABSTRACT FROM AUTHOR]

Published

2024

13. Sobolev Estimates for Singular-Degenerate Quasilinear Equations Beyond the A2 Class.

Author

Dong, Hongjie, Phan, Tuoc, and Sire, Yannick

Abstract

We study a conormal boundary value problem for a class of quasilinear elliptic equations in bounded domain Ω whose coefficients can be degenerate or singular of the type dist (x , ∂ Ω) α , where ∂ Ω is the boundary of Ω and α ∈ (- 1 , ∞) is a given number. We establish weighted Sobolev type estimates for weak solutions under a smallness assumption on the weighted mean oscillations of the coefficients in small balls. Our approach relies on a perturbative method and several new Lipschitz estimates for weak solutions to a class of singular-degenerate quasilinear equations. [ABSTRACT FROM AUTHOR]

Published

2024

14. A maximum rank theorem for solutions to the homogenous complex Monge–Ampère equation in a C-convex ring.

Author

Hu, Jingchen

Subjects

EQUATIONS

Abstract

Suppose Ω 0 , Ω 1 are two bounded strongly C -convex domains in C n , with n ≥ 2 and Ω 1 ⊃ Ω 0 ¯ . Let R = Ω 1 \ Ω 0 ¯ . We call R a C -convex ring. We will show that for a solution Φ to the homogenous complex Monge–Ampère equation in R , with Φ = 1 on ∂ Ω 1 and Φ = 0 on ∂ Ω 0 , - 1 ∂ ∂ ¯ Φ has rank n - 1 and the level sets of Φ are strongly C -convex. [ABSTRACT FROM AUTHOR]

Published

2024

15. Existence and multiplicity of solutions for a new p(x)-Kirchhoff equation

Author

Chu Changmu and Liu Jiaquan

Subjects

p(x)-kirchhoff equation, perturbation technique, invariant sets, variational method, 35j20, 35j60, 35j70, 47j10, Analysis, QA299.6-433

Abstract

This article is devoted to study a class of new p(x)p\left(x)-Kirchhoff equation. By means of perturbation technique, variational method, and the method invariant sets for the descending flow, the existence and multiplicity of solutions to this problem are obtained.

Published

2024

16. Normalized solutions for Sobolev critical fractional Schrödinger equation

Author

Li Quanqing, Nie Jianjun, Wang Wenbo, and Zhou Jianwen

Subjects

normalized solutions, l2-supercritical, sobolev critical growth, 35j20, 35j50, 35j15, 35j60, 35j70, Analysis, QA299.6-433

Abstract

In the present study, we investigate the existence of the normalized solutions to Sobolev critical fractional Schrödinger equation: (−Δ)su+λu=f(u)+∣u∣2s*−2u,inRN,(Pm)∫RN∣u∣2dx=m2,\hspace{14em}\left\{\begin{array}{ll}{\left(-\Delta )}^{s}u+\lambda u=f\left(u)+{| u| }^{{2}_{s}^{* }-2}u,\hspace{1.0em}& \hspace{0.1em}\text{in}\hspace{0.1em}\hspace{0.33em}{{\mathbb{R}}}^{N},\hspace{12em}\left({P}_{m})\\ \mathop{\displaystyle \int }\limits_{{{\mathbb{R}}}^{N}}{| u| }^{2}{\rm{d}}x={m}^{2},\hspace{1.0em}\end{array}\right. where 00m\gt 0, 2s*≔2NN−2s{2}_{s}^{* }:= \frac{2N}{N-2s}, λ\lambda is an unknown parameter that will appear as a Lagrange multiplier, and ff is a mass supercritical and Sobolev subcritical nonlinearity. Under fairly general assumptions about ff, with the aid of the Pohozaev manifold and concentration-compactness principle, we obtain a couple of the normalized solution to (Pm)\left({P}_{m}). We mainly extend the results of Appolloni and Secchi (Normalized solutions for the fractional NLS with mass supercritical nonlinearity, J. Differential Equations 286 (2021), 248–283) concerning the above problem from Sobolev subcritical setting to Sobolev critical setting, and also extend the results of Jeanjean and Lu (A mass supercritical problem revisited, Calc. Var. 59 (2020), 174) from classical Schrödinger equation to fractional Schrödinger equation involving Sobolev critical growth. More importantly, our result settles an open problem raised by Soave (Normalized ground states for the NLS equation with combined nonlinearities: The Sobolev critical case, J. Funct. Anal. 279 (2020), 108610), when s=1s=1.

Published

2024

17. Nontrivial solutions for resonance quasilinear elliptic systems

Author

Borgia Natalino, Cingolani Silvia, and Vannella Giuseppina

Subjects

quasilinear elliptic systems, fadell rabinowitz index, asymptotically (p, q) linear, morse index, resonance, critical groups, 35j70, 35j60, 35b06, 35b65, 46e35, Analysis, QA299.6-433

Abstract

We establish an Amann-Zehnder-type result for resonance systems of quasilinear elliptic equations with homogeneous Dirichlet boundary conditions, involving nonlinearities growing asymptotically (p,q)\left(p,q)-linear at infinity. The proof relies on a cohomological linking in a product Banach space where the properties of cones of the sublevels are missing, differently from the single quasilinear equation. We also perform critical group computations of the energy functional at the origin, in spite of the lack of its C2{C}^{2} regularity, to exclude that the found mini-max solution is trivial. Finally, we furnish a local condition which guarantees that the found solution is not semi-trivial.

Published

2024

18. Principal curves to fractional m-Laplacian systems and related maximum and comparison principles.

Author

de Araujo, Anderson L. A., Leite, Edir J. F., and Medeiros, Aldo H. S.

Subjects

*MAXIMUM principles (Mathematics), *NONLINEAR systems, *EIGENVALUES

Abstract

In this paper we develop a comprehensive study on principal eigenvalues and both the (weak and strong) maximum and comparison principles related to an important class of nonlinear systems involving fractional m-Laplacian operators. Explicit lower bounds for principal eigenvalues of this system in terms of the diameter of bounded domain Ω ⊂ R N are also proved. As application, we measure explicitly how small has to be diam (Ω) so that weak and strong maximum principles associated to this problem hold in Ω . [ABSTRACT FROM AUTHOR]

Published

2024

19. On Numerical Solutions for a Class of Relativistic Quasilinear Schrödinger Equations.

Author

Huang, Canwei and Wang, Youjun

Subjects

*SCHRODINGER equation, *SEMILINEAR elliptic equations, *ELLIPTIC equations

Abstract

We study the numerical solutions for a class of quasilinear Schrödinger equations arising from the self-channeling of high-power ultra short lasers in matter, which are associated with energy functionals with nonlinear principle parts so that the classical algorithm cannot directly be used. By the method of variable replacement to transform the quasilinear Schrödinger equation into an semilinear elliptic equation, the numerical mountain pass algorithm is then applied. Some numerical experiments are also performed, including zero potential, nonzero constant potential and singular problem. [ABSTRACT FROM AUTHOR]

Published

2024

20. A Metric Lower Bound Estimate for Geodesics in the Space of Kähler Potentials.

Author

Hu, Jingchen

Abstract

In this paper, we establish a positive lower bound estimate for the second smallest eigenvalue of the complex Hessian of solutions to a degenerate complex Monge–Ampère equation. As a consequence, we find that in the space of Kähler potentials any two points close to each other in C 2 norm can be connected by a geodesic along which the associated metrics do not degenerate. [ABSTRACT FROM AUTHOR]

Published

2024

21. On Hölder continuity to a function class with nonstandard growth condition.

Author

Li, Zhongqing

Subjects

*ELLIPTIC equations, *EXPONENTS

Abstract

With the help of De Giorgi's method, the embedding of the $ \mathfrak {B}_{m(x)}(\Omega,M,\gamma,\gamma _1,\delta,\frac {1}{q}) $ B m (x) (Ω , M , γ , γ 1 , δ , 1 q) class into $ C^{0,\alpha }(\Omega) $ C 0 , α (Ω) is proved. This result can be applied to the $ C^{0,\alpha } $ C 0 , α continuity to some elliptic equations with variable exponent. [ABSTRACT FROM AUTHOR]

Published

2024

22. Counterexamples to the comparison principle in the special Lagrangian potential equation.

Author

Brustad, Karl K.

Subjects

LAGRANGE equations, OPEN-ended questions, VISCOSITY

Abstract

For each k = 0 , ⋯ , n we construct a continuous phase f k , with f k (0) = (n - 2 k) π 2 , and viscosity sub- and supersolutions v k , u k , of the elliptic PDE ∑ i = 1 n arctan (λ i (H w)) = f k (x) such that v k - u k has an isolated maximum at the origin. It has been an open question whether the comparison principle would hold in this second order equation for arbitrary continuous phases f : R n ⊇ Ω → (- n π / 2 , n π / 2) . Our examples show it does not. [ABSTRACT FROM AUTHOR]

Published

2024

23. Infinitely many solutions of strongly degenerate Schrödinger elliptic equations with vanishing potentials.

Author

My, Bui Kim

Abstract

In this paper, we are concerned with the existence of infinitely many nontrivial solutions to the following semilinear degenerate elliptic equation - Δ λ u + V (x) u = f (x , u) in R N , N ≥ 3 , where V : R N → R is a potential function and allowed to be vanishing at infinitely, f : R N × R → R is a given function and Δ λ is the strongly degenerate elliptic operator. Under suitable assumptions on the potential V and the nonlinearity f, some results on the multiplicity of solutions are proved. The proofs are based on variational methods, in particular, on the well-known mountain pass lemma of Ambrosetti–Rabinowitz. Due to the vanishing potentials and degeneracy of the operator, some new compact embedding theorems are used in the proof. Our results extend and generalize some existing results (Alves and Souto in J Differ Equ 254:1977–1991, 2013; Hamdani in Asia-Eur J Math 13:2050131, , 2020; Luyen in Commun Math Anal 22:61–75, 2019; Luyen and Tri in J Math Anal Appl 461:1271–1286, 2018; Tang in J Math Anal Appl 401:407–415, 2013; Toon and Ubilla in Discrete Contin Dyn Syst 40:5831–5843, 2020). [ABSTRACT FROM AUTHOR]

Published

2024

24. Unique continuation for fractional p-elliptic equations.

Author

Wang, Qi, Ma, Feiyao, and Wo, Weifeng

Abstract

In this paper, we study the unique continuation property for the fractional p-elliptic equations in a semigroup form with variable coefficients. By employing an extension procedure, we derive a monotonicity formula for an extended frequency function. Utilizing this monotonicity together with a blow-up analysis, we establish the unique continuation property. [ABSTRACT FROM AUTHOR]

Published

2024

25. Regularity of flat free boundaries for two-phase p(x)-Laplacian problems with right hand side.

Author

Ferrari, Fausto and Lederman, Claudia

Subjects

LIPSCHITZ continuity, VISCOSITY solutions, LAPLACIAN operator

Abstract

We consider viscosity solutions to two-phase free boundary problems for the p(x)-Laplacian with non-zero right hand side. We prove that flat free boundaries are C 1 , γ . No assumption on the Lipschitz continuity of solutions is made. These regularity results are the first ones in literature for two-phase free boundary problems for the p(x)-Laplacian and also for two-phase problems for singular/degenerate operators with non-zero right hand side. They are new even when p (x) ≡ p , i.e., for the p-Laplacian. The fact that our results hold for merely viscosity solutions allows a wide applicability. [ABSTRACT FROM AUTHOR]

Published

2024

26. A Generalization of Stampacchia Lemma and Applications

Author

Gao, Hongya, Zhang, Jiaxiang, and Ma, Hongyan

Subjects

Mathematics - Analysis of PDEs, 35J70

Abstract

We present a generalization of Stampacchia Lemma and give applications to regularity property of weak and entropy solutions of degenerate elliptic equations of the form $$ \left\{ \begin{array}{llll} -\mbox{div} (a(x,u(x)) Du (x)) =f(x), & \mbox { in } \Omega, \\ u(x)=0, & \mbox { on } \partial \Omega, \end{array} \right. $$ where $$ \frac {\alpha}{(1+|u|) ^\theta} \le a(x,s)\le \beta $$ with $0<\alpha \le \beta <\infty$ and $0\le \theta <1$., Comment: 10 pages

Published

2022

27. Recent Existence Results for Some Critical Subelliptic Problems

Author

Pucci, Patrizia, Chatzakou, Marianna, editor, Restrepo, Joel, editor, Ruzhansky, Michael, editor, Torebek, Berikbol, editor, and Van Bockstal, Karel, editor

Published

2024

28. Gradient regularity for fully nonlinear equations with degenerate coefficients

Author

Jesus, David and Sire, Yannick

Published

2024

29. Double phase anisotropic variational problems involving critical growth

Author

Ho Ky, Kim Yun-Ho, and Zhang Chao

Subjects

variable exponent elliptic operator, variable exponent orlicz-sobolev spaces, critical growth, concentration-compactness principle, variational methods, 35j20, 35j60, 35j70, 47j10, 46e35, Analysis, QA299.6-433

Abstract

In this study, we investigate some existence results for double phase anisotropic variational problems involving critical growth. We first establish a Lions-type concentration-compactness principle and its variant at infinity for the solution space, which are our independent interests. Using these results, we obtain a nontrivial nonnegative solution to problems of generalized concave-convex type. We also obtain infinitely many solutions when the nonlinear term is symmetric. Our results are new even for the p(⋅)p\left(\cdot )-Laplace equations.

Published

2024

30. Existence of a Minimizer for the Bianchi-Egnell Inequality on the Heisenberg Group.

Author

Tang, Zhongwei, Zhang, Bingwei, and Zhang, Yichen

Abstract

This paper is concerned with the Bianchi-Egnell inequality on the Heisenberg group, which quantifies the stability of the Sobolev inequality. We generalize results of K o ¨ nig in the Euclidean case. [ABSTRACT FROM AUTHOR]

Published

2024

31. Sharp anisotropic singular Trudinger–Moser inequalities in the entire space.

Author

Guo, Kaiwen and Liu, Yanjun

Subjects

CONVEX functions

Abstract

In this paper, we investigate sharp singular Trudinger–Moser inequalities involving the anisotropic Dirichlet norm ∫ R N F N (∇ u) d x 1 N in Sobolev-type space D N , q (R N) , N ≥ 2 , q ≥ 1 . Here F : R N → [ 0 , + ∞) is a convex function of class C 2 (R N \ { 0 }) , which is even and positively homogeneous of degree 1. Combing with the connection between convex symmetrization and Schwarz symmetrization, we will establish anisotropic singular Trudinger–Moser inequalities and discuss their sharpness under different situations, including the case ‖ F (∇ u) ‖ N ≤ 1 , the case ‖ F (∇ u) ‖ N a + ‖ u ‖ q b ≤ 1 , and whether they are associated with exact growth. [ABSTRACT FROM AUTHOR]

Published

2024

32. On the regularity and existence of weak solutions for a class of degenerate singular elliptic problem.

Author

Garain, Prashanta

Abstract

In this article, we consider a class of degenerate singular problems. The degeneracy is captured by the presence of a class of p-admissible weights, which may vanish or blow up near the origin. Further, the singularity is allowed to vary inside the domain. We provide sufficient conditions on the weight function, on the singular exponent and the source function to establish regularity and existence results. [ABSTRACT FROM AUTHOR]

Published

2024

33. Anisotropic elliptic system with variable exponents and degenerate coercivity with Lm data.

Author

Allaoui, Nour Elhouda and Mokhtari, Fares

Subjects

*EXPONENTS, *COERCIVE fields (Electronics), *SOBOLEV spaces, *DIRICHLET problem, *VECTOR fields

Abstract

In a bounded open domain $ \Omega \subset \mathbb {R}^{N} $ Ω ⊂ R N , where $ N\geq 2 $ N ≥ 2 , with Lipschitz boundary $ \partial \Omega $ ∂Ω , we consider the Dirichlet problem for the elliptic system given by \[ \left \{ \begin{array}{@{}ll} \displaystyle-\sum^{N}_{i=1}D_{i}\left(a_{i}(x,u(x),D_{i}u(x))\right)+F(x,u)=f(x), & x\quad \in \Omega,\\ u(x)=0, & x\quad \in \partial \Omega, \end{array} \right. \] { − ∑ i = 1 N D i (a i (x , u (x) , D i u (x))) + F (x , u) = f (x) , x ∈ Ω , u (x) = 0 , x ∈ ∂Ω , here, $ u:\Omega \rightarrow \mathbb {R}^{n} $ u : Ω → R n , $ n\geq 2 $ n ≥ 2 , represents a vector-valued function, $ D_{i}u=\frac {\partial u}{\partial x_{i}} $ D i u = ∂ u ∂ x i denotes the partial derivative of u with respect to $ x_i $ x i , and the vector fields $ a_i:\Omega \times \mathbb {R}^{n}\times \mathbb {R}^{n} \rightarrow \mathbb {R}^{n} $ a i : Ω × R n × R n → R n and $ F:\Omega \times \mathbb {R}^n\rightarrow \mathbb {R}^n $ F : Ω × R n → R n are Carathédory functions. In this paper, we focus on nonlinear degenerate anisotropic elliptic systems with variable growth and $ L^{m} $ L m data, where m is small. Specifically, we consider the case where the right-hand side term f belongs to $ L^{m}(\Omega ;\mathbb {R}^{n}) $ L m (Ω ; R n) with 1

Published

2024

34. On the fractional P–Q laplace operator with weights.

Author

Thi Khieu, Tran and Nguyen, Thanh-Hieu

Subjects

*CALCULUS of variations, *LAPLACIAN operator, *NEUMANN problem, *MOUNTAIN pass theorem, *NONLINEAR equations, *ELLIPTIC equations, *MATHEMATICS

Abstract

We exploit the existence and non-existence of positive solutions to the eigenvalue problem driven by the nonhomogeneous fractional $ p\& q $ p &q Laplacian operator with indefinite weights \[ \left(-\Delta_p\right)^{\alpha}u + \left(-\Delta_q\right)^{\beta}u = \lambda\left[a \left|u\right|^{p-2}u + b \left|u\right|^{q-2}u \right]\quad{\rm in}\ \Omega, \] (− Δ p) α u + (− Δ q) β u = λ [ a | u | p − 2 u + b | u | q − 2 u ] in Ω , where $ \Omega \subseteq \mathbb {R}^N $ Ω ⊆ R N is a smooth bounded domain that has been extended by zero. We further show the existence of a continuous family of eigenvalues in the case $ \Omega =\mathbb {R}^N $ Ω = R N and $ b\equiv 0 $ b ≡ 0 a.e. Our approach relies strongly on variational Analysis, in which the Mountain pass theorem plays the key role. Due to the lack of spatial compactness and the embedding $ \mathcal {W}^{\alpha, p}\left (\mathbb {R}^N\right) \hookrightarrow \mathcal {W}^{\beta, q}\left (\mathbb {R}^N\right) $ W α , p (R N) ↪ W β , q (R N) in $ \mathbb {R}^N $ R N , we employ the concentration-compactness principle of P.L. Lions [The concentration-compactness principle in the calculus of variations. The limit case. II, Rev Mat Iberoamericana. 1985;1(2):45–121]. to overcome the difficulty. Our paper can be considered as a counterpart to the important works [Alves et al. Existence, multiplicity and concentration for a class of fractional $ p\& q $ p &q Laplacian problems in $ \Bbb R^N $ R N , Commun Pure Appl Anal, 2019;18(4):2009–2045], [Benci et al. An eigenvalue problem for a quasilinear elliptic field equation. J Differ Equ, 2002;184(2):299–320], [Bobkov et al. On positive solutions for $ (p,q) $ (p , q) -Laplace equations with two parameters, Calc Var Partial Differ Equ, 2015;54(3):3277–3301], [Colasuonno and Squassina. Eigenvalues for double phase variational integrals, Ann Mat Pura Appl (4), 2016;195(6):1917–1956], [Papageorgiou et al. Positive solutions for nonlinear Neumann problems with singular terms and convection, J Math Pures Appl (9), 2020;136:1–21], [Papageorgiou et al. Ground state and nodal solutions for a class of double phase problems, Z Angew Math Phys, 2020;71:1–15], and may have further applications to deal with other problems. [ABSTRACT FROM AUTHOR]

Published

2024

35. The first Grushin eigenvalue on cartesian product domains.

Author

Luzzini, Paolo, Provenzano, Luigi, and Stubbe, Joachim

Subjects

*EIGENVALUES, *SCHRODINGER operator

Abstract

In this paper, we consider the first eigenvalue λ 1 ⁢ (Ω) of the Grushin operator Δ G := Δ x 1 + | x 1 | 2 ⁢ s ⁢ Δ x 2 with Dirichlet boundary conditions on a bounded domain Ω of ℝ d = ℝ d 1 + d 2 . We prove that λ 1 ⁢ (Ω) admits a unique minimizer in the class of domains with prescribed finite volume, which are the cartesian product of a set in ℝ d 1 and a set in ℝ d 2 , and that the minimizer is the product of two balls Ω 1 * ⊆ ℝ d 1 and Ω 2 * ⊆ ℝ d 2 . Moreover, we provide a lower bound for | Ω 1 * | and for λ 1 ⁢ (Ω 1 * × Ω 2 *) . Finally, we consider the limiting problem as s tends to 0 and to + ∞ . [ABSTRACT FROM AUTHOR]

Published

2024

36. Partial regularity for a nonlinear discontinuous sub-elliptic system with drift on the Heisenberg group: the superquadratic case.

Author

Zhang, Junli and Wang, Jialin

Subjects

*OSCILLATIONS

Abstract

In this paper, we consider a nonlinear discontinuous sub-elliptic system with drift on the Heisenberg group, where the coefficients in system are discontinuous and satisfy the vanishing mean oscillation condition and growth conditions with the growth index $ 2 2 < p < ∞ , and the non-homogeneous terms satisfy the controllable growth conditions and the natural growth conditions, respectively. The partial Hölder regularity to weak solutions and the partial Morrey regularity to horizontal gradients of weak solutions are proved by the $ \mathcal {A} $ A -harmonic approximation. One of the difficulties in this paper is how to reasonably define the weak solution and avoid the requirement of integrability of Tu. In fact, we used $ T={X_i}{X_{n+i}}-{X_{n+i}}{X_i} $ T = X i X n + i − X n + i X i . [ABSTRACT FROM AUTHOR]

Published

2024

37. Higher Order Boundary Harnack Principle via Degenerate Equations.

Author

Terracini, Susanna, Tortone, Giorgio, and Vita, Stefano

Abstract

As a first result we prove higher order Schauder estimates for solutions to singular/degenerate elliptic equations of type - div ρ a A ∇ w = ρ a f + div ρ a F in Ω for exponents a > - 1 , where the weight ρ vanishes with non zero gradient on a regular hypersurface Γ , which can be either a part of the boundary of Ω or mostly contained in its interior. As an application, we extend such estimates to the ratio v/u of two solutions to a second order elliptic equation in divergence form when the zero set of v includes the zero set of u which is not singular in the domain (in this case ρ = u , a = 2 and w = v / u ). We prove first the C k , α -regularity of the ratio from one side of the regular part of the nodal set of u in the spirit of the higher order boundary Harnack principle in Savin (Discrete Contin Dyn Syst 35–12:6155–6163, 2015). Then, by a gluing Lemma, the estimates extend across the regular part of the nodal set. Finally, using conformal mapping in dimension n = 2 , we provide local gradient estimates for the ratio, which hold also across the singular set. [ABSTRACT FROM AUTHOR]

Published

2024

38. Weighted Poincaré Inequalities and Degenerate Elliptic and Parabolic Problems: An Approach via the Distance Function.

Author

Monticelli, D. D. and Punzo, F.

Abstract

We obtain weighted Poincaré inequalities in bounded domains, where the weight is given by a symmetric nonnegative definite matrix, which can degenerate on submanifolds. Furthermore, we investigate uniqueness and nonuniqueness of solutions to degenerate elliptic and parabolic problems, where the diffusion matrix can degenerate on subsets of the boundary of the domain. Both the results are obtained by means of the distance function from the degeneracy set, which is used to construct suitable local sub– and supersolutions. [ABSTRACT FROM AUTHOR]

Published

2024

39. p-Harmonic Functions in the Upper Half-space.

Author

Abreu, E., Clemente, R., do Ó, J. M., and Medeiros, E.

Abstract

This paper investigates the existence, nonexistence, and qualitative properties of p-harmonic functions in the upper half-space R + N (N ≥ 3) satisfying nonlinear boundary conditions for 1 < p < N . Moreover, the symmetry of positive solutions is shown by using the method of moving planes. [ABSTRACT FROM AUTHOR]

Published

2024

40. Pólya–Szegö type inequality and imbedding theorems for weighted Sobolev spaces.

Author

Nga, N. Q., Tri, N. M., and Tuan, D. A.

Abstract

In this paper we will establish a new Pólya–Szegö type inequality for a weighted gradient of a function on R 2 with respect to a weighted area. In order to do that we need to study an isoperimetric problem for the weighted area. We then apply the inequality to prove embedding theorems for weighted Sobolev spaces and to calculate the best constant in the Sobolev imbedding theorems. In our upcoming manuscript the obtained results in this note will be used to study boundary value problems for semilinear degenerate elliptic equations, see Luyen et al. (). [ABSTRACT FROM AUTHOR]

Published

2024

41. The Multiplicity of Nonnegative Nontrivial Solutions for p(x)-Kirchhoff Equation with Concave–Convex Nonlinearities.

Author

Chu, Changmu, Fang, Weiran, He, Zhongju, and Liu, Jiaquan

Abstract

This paper is devoted to study a class of p(x)-Kirchhoff equation with concave–convex nonlinearities. By means of perturbation technique and the variational method, the multiplicity of nonnegative nontrivial solutions to this problem is obtained. [ABSTRACT FROM AUTHOR]

Published

2024

42. Nontrivial Solutions for Fractional Schrödinger Equations with Electromagnetic Fields and Critical or Supercritical Growth.

Author

Li, Quanqing, Nie, Jianjun, and Wang, Wenbo

Abstract

In this paper, we study the following fractional Schrödinger equation with electromagnetic fields and critical or supercritical growth (- Δ) A s u + V (x) u = λ | u | p - 2 u + f (x , | u | 2) u , x ∈ R N , where (- Δ) A s is the fractional magnetic operator with 0 < s < 1 , N > 2 s , 2 s ∗ = 2 N N - 2 s , λ > 0 , V ∈ C (R N , R) and A ∈ C (R N , R N) are the electric and magnetic potentials, respectively. When V and f are asymptotically periodic in x, and f is a continuous function and there exists 2 < q < 2 s ∗ such that | f (x , t) | ≤ C (1 + | t | q - 2 2) for all (x, t), for 2 s ∗ ≤ p < 22 s ∗ - q . For any D > 0 fixed, if λ ∈ (0 , D ] we prove that the equation has a nontrivial solution by the truncation method. Our method can provide a prior L ∞ -estimate. [ABSTRACT FROM AUTHOR]

Published

2024

43. Double phase systems with convex–concave nonlinearity on complete manifold.

Author

Aberqi, Ahmed, Benslimane, Omar, and Knifda, Mohamed

Abstract

This study investigates the double-phase system with infinite potentials that vanish and convex–concave nonlinearity in Sobolev spaces with variable exponents on complete manifolds. Using the Nehari manifold and variational techniques, we aim to demonstrate the existence of at least two nonnegative nontrivial solutions. Our findings shed light on the behavior of this complex system and contribute to the mathematical analysis community's comprehension of nonlinear dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

44. A Positive Solution for a Weighted p-Laplace Equation with Hardy–Sobolev’s Critical Exponent.

Author

Razani, Abdolrahman, Costa, Gustavo S., and Figueiredo, Giovany M.

Abstract

Here, considering - ∞ < a < N - p p , a ≤ e ≤ a + 1 , d = 1 + a - e and p ∗ : = p ∗ (a , e) = Np N - d p , the existence of positive solution of a weighted p-Laplace equation involving vanishing potentials - Δ ap u + V (x) | x | - e p ∗ | u | p - 2 u = | x | - e p ∗ f (u) in R N is proved, where the potential V can vanish at infinity with exponential decay and f is a function with subcritical growth of class C 1 . We use Del Pino & Felmer’s arguments to overcome the lack of compactness and the Moser iteration method with Caffarelli–Kohn–Nirenberg inequality to obtain estimates of the solution in L ∞ (R N). [ABSTRACT FROM AUTHOR]

Published

2024

45. Multiplicity of solutions for the semilinear subelliptic Dirichlet problem.

Author

Chen, Hua, Chen, Hong-Ge, Li, Jin-Ning, and Liao, Xin

Abstract

In this paper, we study the semilinear subelliptic equation where is the self-adjoint Hörmander operator associated with the vector fields X = (Xl, X2, ..., Xm) satisfying the Hörmander's condition, is a Carathéodory function on Ω × ℝ, and Ω is an open bounded domain in ℝn with smooth boundary. Combining the perturbation from the symmetry method with the approaches involving the eigenvalue estimate and the Morse index in estimating the minimax values, we obtain two kinds of existence results for multiple weak solutions to the problem above. Furthermore, we discuss the difference between the eigenvalue estimate approach and the Morse index approach in degenerate situations. Compared with the classical elliptic cases, both approaches here have their own strengths in the degenerate cases. This new phenomenon implies that the results in general degenerate cases would be quite different from the situations in classical elliptic cases. [ABSTRACT FROM AUTHOR]

Published

2024

46. New homogenization results for convex integral functionals and their Euler–Lagrange equations.

Author

Ruf, Matthias and Schäffner, Mathias

Subjects

LAGRANGE equations, FUNCTIONALS, INTEGRALS, SOBOLEV spaces, EULER-Lagrange equations, ASYMPTOTIC homogenization, COERCIVE fields (Electronics)

Abstract

We study stochastic homogenization for convex integral functionals u ↦ ∫ D W (ω , x ε , ∇ u) d x , where u : D ⊂ R d → R m , defined on Sobolev spaces. Assuming only stochastic integrability of the map ω ↦ W (ω , 0 , ξ) , we prove homogenization results under two different sets of assumptions, namely ∙ 1 W satisfies superlinear growth quantified by the stochastic integrability of the Fenchel conjugate W ∗ (· , 0 , ξ) and a certain monotonicity condition that ensures that the functional does not increase too much by componentwise truncation of u, ∙ 2 W is p-coercive in the sense | ξ | p ≤ W (ω , x , ξ) for some p > d - 1 . Condition ∙ 2 directly improves upon earlier results, where p-coercivity with p > d is assumed and ∙ 1 provides an alternative condition under very weak coercivity assumptions and additional structure conditions on the integrand. We also study the corresponding Euler–Lagrange equations in the setting of Sobolev-Orlicz spaces. In particular, if W (ω , x , ξ) is comparable to W (ω , x , - ξ) in a suitable sense, we show that the homogenized integrand is differentiable. [ABSTRACT FROM AUTHOR]

Published

2024

47. On a nonlinear Robin problem with an absorption term on the boundary and L1 data

Author

Pietra Francesco Della, Oliva Francescantonio, and León Sergio Segura de

Subjects

nonlinear elliptic equations, robin boundary conditions, singular lower-order term, entropy solutions, uniqueness, 35j25, 35j60, 35j70, 35j75, 35a01, 35a02, Analysis, QA299.6-433

Abstract

We deal with existence and uniqueness of nonnegative solutions to: −Δu=f(x),inΩ,∂u∂ν+λ(x)u=g(x)uη,on∂Ω,\left\{\begin{array}{ll}-\Delta u=f\left(x),\hspace{1.0em}& \hspace{0.1em}\text{in}\hspace{0.1em}\hspace{0.33em}\Omega ,\\ \frac{\partial u}{\partial \nu }+\lambda \left(x)u=\frac{g\left(x)}{{u}^{\eta }},\hspace{1.0em}& \hspace{0.1em}\text{on}\hspace{0.1em}\hspace{0.33em}\partial \Omega ,\end{array}\right. where η≥0\eta \ge 0 and f,λf,\lambda , and gg are the nonnegative integrable functions. The set Ω⊂RN(N>2)\Omega \subset {{\mathbb{R}}}^{N}\left(N\gt 2) is open and bounded with smooth boundary, and ν\nu denotes its unit outward normal vector. More generally, we handle equations driven by monotone operators of pp-Laplacian type jointly with nonlinear boundary conditions. We prove the existence of an entropy solution and check that, under natural assumptions, this solution is unique. Among other features, we study the regularizing effect given to the solution by both the absorption and the nonlinear boundary term.

Published

2024

48. Boundary regularity results for minimisers of convex functionals with (p, q)-growth

Author

Irving Christopher and Koch Lukas

Subjects

nonuniformly elliptic convex vectorial functionals, non-autonomous integrands, partial regularity, regular boundary points, 35j60, 35j70, Analysis, QA299.6-433

Abstract

We prove improved differentiability results for relaxed minimisers of vectorial convex functionals with (p,q)\left(p,q)-growth, satisfying a Hölder-growth condition in xx. We consider both Dirichlet and Neumann boundary data. In addition, we obtain a characterisation of regular boundary points for such minimisers. In particular, in case of homogeneous boundary conditions, this allows us to deduce partial boundary regularity of relaxed minimisers on smooth domains for radial integrands. We also obtain some partial boundary regularity results for non-homogeneous Neumann boundary conditions.

Published

2023

49. Nonlinear weighted elliptic problem with variable exponents and L1 data

Author

Mecheter, Rabah

Published

2024

50. Nonlinear Degenerate Parabolic Equations with a Singular Nonlinearity.

Author

Khelifi, Hichem and Mokhtari, Fares

Subjects

*DEGENERATE parabolic equations, *COERCIVE fields (Electronics)

Abstract

In this paper, we study the existence and regularity results for some parabolic equations with degenerate coercivity, and a singular right-hand side. The model problem is 0.1 { ∂ u ∂ t − div ( (1 + | ∇ u | − Λ) | ∇ u | p − 2 ∇ u (1 + | u |) θ) = f (e u − 1) γ in Q T , u (x , 0) = 0 on Ω , u = 0 on ∂ Q T , where Ω is a bounded open subset of R N N ≥ 2 , T > 0 , Λ ∈ [ 0 , p − 1) , f is a non-negative function belonging to L m (Q T) , Q T = Ω × (0 , T) , ∂ Q T = ∂ Ω × (0 , T) , 0 ≤ θ < p − 1 + p N + γ (1 + p N) and 0 ≤ γ < p − 1 . [ABSTRACT FROM AUTHOR]

Published

2024