Your search keyword '"concentration compactness principle"' showing total 111 results

1. Existence of nontrivial solutions for a fractional p & q $p\&q$ -Laplacian equation with sandwich-type and sign-changing nonlinearities

Author

Qin Li, Zonghu Xiu, and Lin Chen

Subjects

Fractional p & q $p\&q$ -Laplacian, Sandwich-type and sign-changing nonlinearities, Concentration compactness principle, Ekeland variational principle, Mathematics, QA1-939

Abstract

Abstract In this paper, we deal with the following fractional p & q $p\&q$ -Laplacian problem: { ( − Δ ) p s u + ( − Δ ) q s u = λ a ( x ) | u | θ − 2 u + μ b ( x ) | u | r − 2 u in Ω , u ( x ) = 0 in R N ∖ Ω , $$ \left \{ \textstyle\begin{array}{l@{\quad }l} (-\Delta )_{p}^{s}u +(-\Delta )_{q}^{s}u =\lambda a(x)|u|^{\theta -2}u+ \mu b(x)|u|^{r-2}u&\text{in}\;\ \Omega , \\ u(x)=0 &\text{in}\;\ \mathbb{R}^{N}\setminus \Omega , \end{array}\displaystyle \right . $$ where Ω ⊂ R N $\Omega \subset \mathbb{R}^{N}$ is a bounded domain with smooth boundary, s ∈ ( 0 , 1 ) $s\in (0,1)$ , ( − Δ ) m s $(-\Delta )_{m}^{s}$ ( m ∈ { p , q } ) $(m\in \{p,q\})$ is the fractional m-Laplacian operator, p , q , r , θ ∈ ( 1 , p s ∗ ] $p,q,r,\theta \in (1,p_{s}^{*}]$ , p s ∗ = N p N − s p $p_{s}^{*}=\frac{Np}{N-sp}$ , λ , μ > 0 $\lambda , \mu >0$ , and the weights a ( x ) $a(x)$ and b ( x ) $b(x)$ are possibly sign changing. Using the concentration compactness principle for fractional Sobolev spaces and the Ekeland variational principle, we prove that the problem admits a nonnegative solution for the critical case r = p s ∗ $r=p_{s}^{*}$ . Moreover, for the subcritical case r < p s ∗ $r< p_{s}^{*}$ , we obtain two existence results by applying the Ekeland variational principle and the mountain pass theorem.

Published

2024

2. Almost sharp weighted Sobolev trace inequalities in the unit ball under constraints.

Author

An, Jiaxing, Dou, Jingbo, and Han, Yazhou

Subjects

*CONFORMAL geometry

Abstract

In this paper, we establish some improved weighted Sobolev trace inequalities H 1 (ρ 1 − 2 σ , n + 1) ↪ L q ( n) under the zero higher order moments constraint via the concentration compactness principle, where ρ is a defining function of n + 1 and σ ∈ (0 , 1). This relates to the fractional (conformal) Laplacians and related problems in conformal geometry. We construct some test functions and show that the inequality is almost optimal when σ ∈ (0 , 1 2 ]. [ABSTRACT FROM AUTHOR]

Published

2024

3. Existence of nontrivial solutions for a fractional p&q-Laplacian equation with sandwich-type and sign-changing nonlinearities.

Author

Li, Qin, Xiu, Zonghu, and Chen, Lin

Subjects

*VARIATIONAL principles, *SOBOLEV spaces, *EQUATIONS

Abstract

In this paper, we deal with the following fractional p & q -Laplacian problem: { (− Δ) p s u + (− Δ) q s u = λ a (x) | u | θ − 2 u + μ b (x) | u | r − 2 u in Ω , u (x) = 0 in R N ∖ Ω , where Ω ⊂ R N is a bounded domain with smooth boundary, s ∈ (0 , 1) , (− Δ) m s (m ∈ { p , q }) is the fractional m-Laplacian operator, p , q , r , θ ∈ (1 , p s ∗ ] , p s ∗ = N p N − s p , λ , μ > 0 , and the weights a (x) and b (x) are possibly sign changing. Using the concentration compactness principle for fractional Sobolev spaces and the Ekeland variational principle, we prove that the problem admits a nonnegative solution for the critical case r = p s ∗ . Moreover, for the subcritical case r < p s ∗ , we obtain two existence results by applying the Ekeland variational principle and the mountain pass theorem. [ABSTRACT FROM AUTHOR]

Published

2024

4. High Perturbations of a Fractional Kirchhoff Equation with Critical Nonlinearities.

Author

Yu, Shengbin, Huang, Lingmei, and Chen, Jiangbin

Subjects

*EQUATIONS, *MOUNTAIN pass theorem, *MULTIPLICITY (Mathematics)

Abstract

This paper concerns a fractional Kirchhoff equation with critical nonlinearities and a negative nonlocal term. In the case of high perturbations (large values of α , i.e., the parameter of a subcritical nonlinearity), existence results are obtained by the concentration compactness principle together with the mountain pass theorem and cut-off technique. The multiplicity of solutions are further considered with the help of the symmetric mountain pass theorem. Moreover, the nonexistence and asymptotic behavior of positive solutions are also investigated. [ABSTRACT FROM AUTHOR]

Published

2024

5. Integral inequalities with an extended Poisson kernel and the existence of the extremals

Author

Tao Chunxia and Wang Yike

Subjects

hardy-littlewood-sobolev inequality, stein-weiss inequality, poisson kernel, concentration compactness principle, 35a01, 39b72, Mathematics, QA1-939

Abstract

In this article, we first apply the method of combining the interpolation theorem and weak-type estimate developed in Chen et al. to derive the Hardy-Littlewood-Sobolev inequality with an extended Poisson kernel. By using this inequality and weighted Hardy inequality, we further obtain the Stein-Weiss inequality with an extended Poisson kernel. For the extremal problem of the corresponding Stein-Weiss inequality, the presence of double-weighted exponents not being necessarily nonnegative makes it impossible to obtain the desired existence result through the usual technique of symmetrization and rearrangement. We then adopt the concentration compactness principle of double-weighted integral operator, which was first used by the authors in Chen et al. to overcome this difficulty and obtain the existence of the extremals. Finally, the regularity of the positive solution for integral system related with the extended kernel is also considered in this article. Our regularity result also avoids the nonnegativity condition of double-weighted exponents, which is a common assumption in dealing with the regularity of positive solutions of the double-weighted integral systems in the literatures.

Published

2023

6. Existence of solutions for Kirchhoff-type systems with critical Sobolev exponents in $ \mathbb{R}^3 $

Author

Xing Yi and Shuhou Ye

Subjects

positive solutions, kirchhoff-type systems, critical sobolev exponent, concentration compactness principle, mountain pass lemma, Mathematics, QA1-939, Applied mathematics. Quantitative methods, T57-57.97

Abstract

In this paper, we study the following Kirchhoff-type system: $ \begin{equation} \left\{ \begin{array}{ll} -(a_{1}+b_{1}\int_{\mathbb{R}^{3}}|\nabla u|^{2}dx)\Delta u = \frac{2\alpha}{\alpha+\beta}|u|^{\alpha-2}u|v|^{\beta}+\varepsilon f(x), \\ -(a_{2}+b_{2}\int_{\mathbb{R}^{3}}|\nabla v|^{2}dx)\Delta v = \frac{2\beta}{\alpha+\beta}|u|^{\alpha}|v|^{\beta-2}v+\varepsilon g(x), \\ (u, v)\in D^{1, 2}(\mathbb{R}^{3})\times D^{1, 2}(\mathbb{R}^{3}), \end{array} \right. \end{equation} $ where $ a_{1}, a_{2}\geq0, \; b_{1}, b_{2} > 0, \; \alpha, \beta > 1, \; \alpha+\beta = 6 $ and $ f(x), g(x)\geq0, \; f(x), g(x)\in L^{\frac{6}{5}}(\mathbb{R}^3). $ The aim of this paper is to demonstrate the existence of at least two solutions for system (0.1), utilizing the variational method. To achieve this, we construct an energy functional and analyze its critical points by applying the Ekeland variational principle, the mountain pass lemma and the concentration compactness principle.

Published

2023

7. Improved Hardy–Littlewood–Sobolev Inequality on Sn under Constraints.

Author

Hu, Yun Yun and Dou, Jing Bo

Subjects

*TIN, *CONFORMAL mapping

Abstract

In this paper, we establish an improved Hardy–Littlewood–Sobolev inequality on S n under higher-order moments constraint. Moreover, by constructing precise test functions, using improved Hardy–Littlewood–Sobolev inequality on S n , we show such inequality is almost optimal in critical case. As an application, we give a simpler proof of the existence of the maximizer for conformal Hardy–Littlewood–Sobolev inequality. [ABSTRACT FROM AUTHOR]

Published

2023

8. Existence of solutions for Kirchhoff-type systems with critical Sobolev exponents in $ \mathbb{R}^3 $.

Author

Yi, Xing and Ye, Shuhou

Subjects

*EXPONENTS, *ENERGY function, *CRITICAL point theory, *COMPACT spaces (Topology), *VARIATIONAL approach (Mathematics)

Abstract

In this paper, we study the following Kirchhoff-type system: where and The aim of this paper is to demonstrate the existence of at least two solutions for system (0.1), utilizing the variational method. To achieve this, we construct an energy functional and analyze its critical points by applying the Ekeland variational principle, the mountain pass lemma and the concentration compactness principle. [ABSTRACT FROM AUTHOR]

Published

2023

9. High Perturbations of a Fractional Kirchhoff Equation with Critical Nonlinearities

Author

Shengbin Yu, Lingmei Huang, and Jiangbin Chen

Subjects

fractional Kirchhoff equation, multiplicity, critical exponent, concentration compactness principle, mountain pass theorem, Mathematics, QA1-939

Abstract

This paper concerns a fractional Kirchhoff equation with critical nonlinearities and a negative nonlocal term. In the case of high perturbations (large values of α, i.e., the parameter of a subcritical nonlinearity), existence results are obtained by the concentration compactness principle together with the mountain pass theorem and cut-off technique. The multiplicity of solutions are further considered with the help of the symmetric mountain pass theorem. Moreover, the nonexistence and asymptotic behavior of positive solutions are also investigated.

Published

2024

10. On degenerate fractional Schrödinger–Kirchhoff–Poisson equations with upper critical nonlinearity and electromagnetic fields.

Author

Zhang, Zhongyi and Repovš, Dušan D.

Subjects

*ELECTROMAGNETIC fields, *ANALYTICAL skills, *ELECTRIC potential, *POISSON'S equation, *VARIATIONAL principles, *EQUATIONS

Abstract

This paper intends to study the following degenerate fractional Schrödinger–Kirchhoff–Poisson equations with critical nonlinearity and electromagnetic fields in R 3 : { ε 2 s M ([ u ] s , A 2) (− Δ) A s u + V (x) u + ϕ u = k (x) | u | r − 2 u + (I μ ∗ | u | 2 s ♯ ) | u | 2 s ♯ − 2 u , x ∈ R 3 , (− Δ) t ϕ = u 2 , x ∈ R 3 , where ε > 0 is a positive parameter, 3 / 4 < s < 1 , 0

Published

2023

11. Multiple positive solutions for a bi-nonlocal Kirchhoff-Schrödinger-Poisson system with critical growth

Author

Guaiqi Tian, Hongmin Suo, and Yucheng An

Subjects

kirchhoff-schro¨dinger-poisson systems, positive solutions, critical growth, concentration compactness principle, multiplicity, Mathematics, QA1-939, Applied mathematics. Quantitative methods, T57-57.97

Abstract

In this article, we study the following bi-nonlocal Kirchhoff-Schr$ \ddot{\mathrm{o}} $dinger-Poisson system with critical growth: $ \begin{equation*} \begin{cases} -\left( \int_{\Omega}|\nabla u|^2dx\right)^r\Delta u+\phi u = u^5+\lambda\left( \int_{\Omega}F(x, u)dx\right)^sf(x, u), & \mathrm{in}\ \ \Omega, \\ -\Delta\phi = u^2, u>0, & \mathrm{in}\ \ \Omega, \\ u = \phi = 0, & \mathrm{on}\ \ \partial\Omega, \end{cases} \end{equation*} $ where $ \Omega\subset \mathbb{R}^3 $ is a smooth bounded domain, $ \lambda > 0 $, $ 0\leq r < 1 $, $ 0 < s < \frac{1-r}{3(r+1)} $ and $ f(x, u) $ satisfies some suitable assumptions. By using the concentration compactness principle, the multiplicity of positive solutions for the above system is established.

Published

2022

12. Sufficient and Necessary Conditions for Normalized Solutions to a Choquard Equation.

Author

Lei, Chunyu, Yang, Miaomiao, and Zhang, Binlin

Subjects

NORMALIZED measures, EQUATIONS, COMPACT spaces (Topology), GROUND state (Quantum mechanics), GEOMETRIC series

Abstract

In this paper, our major concern is the existence of normalized solutions for a Choquard equation with a L 2 -subcritical growth. As a result, we prove that the normalized solutions and ground state solutions are equivalent by constructing Pohozaev sequence and combining the principle of compactness concentration. [ABSTRACT FROM AUTHOR]

Published

2023

13. Existence of solutions for superquadratic or asymptotically quadratic fractional Hamiltonian systems

Author

Timoumi, Mohsen

Published

2024

14. 带竞争系数的拟线性方程基态解的存在性.

Author

曾宇娇 and 胡亭曦

Subjects

VARIATIONAL principles, POTENTIAL functions, ARGUMENT

Abstract

Copyright of Basic Sciences Journal of Textile Universities / Fangzhi Gaoxiao Jichu Kexue Xuebao is the property of Basic Sciences Journal of Textile Universities and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

15. Infinitely many solutions for a doubly nonlocal fractional problem involving two critical nonlinearities.

Author

Panda, Akasmika and Choudhuri, Debajyoti

Subjects

*CRITICAL exponents, *SYMMETRIC functions, *SOBOLEV spaces, *EXPONENTS

Abstract

In this article, we study the existence of infinitely many nontrivial solutions for the following doubly nonlocal problem involving fractional (p (x) , p +) -Laplacian. (− Δ) p (x) s u + (− Δ) p + s u = | u | r (x) − 2 u + | u | p s ∗ (x) − 2 u + λ f (x , u) in Ω , u = 0 in R N ∖ Ω. Here, Ω ⊂ R N is a bounded Lipschitz domain, λ > 0 , q s ∈ (0 , 1) , p (⋅ , ⋅) is a continuous, bounded, symmetric function in R N × R N such that p + = sup (x , y) ∈ R N × R N { p (x , y) } < N s , r ∈ C (Ω ¯) , p s ∗ (x) = N p (x , x) N − s p (x , x) for every x ∈ R N and the function f satisfies certain assumptions which will be made precise later. Further, the exponents p s ∗ (⋅) and r (⋅) are two critical exponents with the assumption that the critical sets { x ∈ Ω : p s ∗ (x) = (p +) s ∗ } and { x ∈ Ω : r (x) = (p +) s ∗ } are nonempty, where (p +) s ∗ = N p + N − s p + . We also develop a concentration compactness type principle in the process. [ABSTRACT FROM AUTHOR]

Published

2022

16. Cylindrical Solutions and Ground State Solutions to Weighted Kirchhoff Equations.

Author

Shen, Zupei and Yu, Jianshe

Abstract

We analyze the existence and non-existence of cylindrical solutions as well as ground state solutions to a class of Kirchhoff-type problems with critical Sobolev exponent, subcritical Sobolev exponent, and critical Sobolev–Hardy exponent. To the best of our knowledge, this is the first time to study the existence of cylindrically symmetric solutions to the Kirchhoff equations in the literature. [ABSTRACT FROM AUTHOR]

Published

2022

17. Critical p(x)-Kirchhoff Problems Involving Variable Singular Exponent.

Author

Mokhtari, Abdelhak, Saoudi, Kamel, and Zuo, Jiabin

Subjects

*EXPONENTS, *CRITICAL exponents, *ARGUMENT

Abstract

In this paper, we investigate a class of critical p(x)-Kirchhoff problems with a singular term. A nontrivial positive solution is obtained by combining variational methods with an appropriate truncation argument. [ABSTRACT FROM AUTHOR]

Published

2022

18. Aubin Type Almost sharp Moser–Trudinger Inequality Revisited.

Author

Hang, Fengbo

Abstract

We give a new proof of the almost sharp Moser–Trudinger inequality on smooth compact Riemannian manifolds based on the sharp Moser inequality on Euclidean spaces and generalize it to Riemannian manifolds with continuous metrics and to higher order Sobolev spaces on manifolds with boundary under several boundary conditions. These generalizations can be applied to fourth order Q curvature equations in dimension 4. [ABSTRACT FROM AUTHOR]

Published

2022

19. Existence of positive solutions for Brezis-Nirenberg type problems involving an inverse operator

Author

Pablo Alvarez-Caudevilla, Eduardo Colorado, and Alejandro Ortega

Subjects

critical point, concentration compactness principle, mountain pass theorem, Mathematics, QA1-939

Published

2021

20. Sign-changing solutions for critical Choquard equation on bounded domain.

Author

Liu, Chenchen and Yang, Xiaolong

Published

2025

21. Existence of stable standing waves for the nonlinear Schrödinger equation with inverse-power potential and combined power-type and Choquard-type nonlinearities

Author

Yile Wang

Subjects

concentration compactness principle, orbital stability, inverse-power potential, standing waves, Mathematics, QA1-939

Abstract

In this paper, we investigate the existence of stable standing waves for the nonlinear Schr\"{o}dinger equation with inverse-power potential and combined power-type and Choquard-type nonlinearities \[ i \partial_t\psi+\triangle \psi+\frac{\gamma}{|x|^\alpha}\psi+\lambda_1|\psi|^p\psi +\lambda_2(I_\beta\ast|\psi|^q)|\psi|^{q-2}\psi=0,~~(t,x)\in [0,T^\star)\times \mathbb{R}^N. \] By using concentration compactness principle, when one nonlinearity is focusing and $L^2$-critical, the other is defocusing and $L^2$-supercritical, we prove the existence and orbital stability of standing waves. We extend the results of Li-Zhao in paper \cite {13} to the $L^2$-critical and $L^2$-supercritical nonlinearities.

Published

2021

22. Ground‐state solution of a nonlinear fractional Schrödinger–Poisson system.

Author

Liu, Haidong and Zhao, Leiga

Subjects

*ARGUMENT

Abstract

In this paper, we study the nonlinear fractional Schrödinger–Poisson system (−Δ)su+V(x)u+ϕu=f(u)inℝ3,(−Δ)sϕ=u2inℝ3,where (− Δ)s is the fractional Laplacian of order s, 34

Published

2022

23. Positive Solutions with High Energy for Fractional Schrödinger Equations

Author

Guo, Qing and Zhao, Leiga

Published

2023

24. Existence of Solutions to Fractional p-Laplacian Systems with Homogeneous Nonlinearities of Critical Sobolev Growth

Author

Lu Guozhen and Shen Yansheng

Subjects

elliptic system, concentration compactness principle, 35b33, 35j50, 39b72, 45g15, Mathematics, QA1-939

Abstract

In this paper, we investigate the existence of nontrivial solutions to the following fractional p-Laplacian system with homogeneous nonlinearities of critical Sobolev growth:

Published

2020

25. Existence of positive ground state solutions of Schrödinger–Poisson system involving negative nonlocal term and critical exponent on bounded domain

Author

Wenxuan Zheng, Wenbin Gan, and Shibo Liu

Subjects

Negative nonlocal, Critical exponent, Mountain pass theorem, Concentration compactness principle, Analysis, QA299.6-433

Abstract

Abstract In this paper, we prove the existence of positive ground state solutions of the Schrödinger–Poisson system involving a negative nonlocal term and critical exponent on a bounded domain. The main tools are the mountain pass theorem and the concentration compactness principle.

Published

2019

26. EXISTENCE OF POSITIVE SOLUTIONS FOR BREZIS-NIRENBERG TYPE PROBLEMS INVOLVING AN INVERSE OPERATOR.

Author

ÁLVAREZ-CAUDEVILLA, PABLO, COLORADO, EDUARDO, and ORTEGA, ALEJANDRO

Subjects

*INVERSE problems, *MOUNTAIN pass theorem, *CLASSICAL solutions (Mathematics)

Abstract

This article concerns the existence of positive solutions for the second order equation involving a nonlocal term -Δu = γ(-Δ)-1u + |u|p-1u, under Dirichlet boundary conditions. We prove the existence of positive solutions depending on the positive real parameter γ>0, and up to the critical value of the exponent p, i.e. when 1

Published

2021

27. Fractional minimization problem on the Nehari manifold

Author

Mei Yu, Meina Zhang, and Xia Zhang

Subjects

Minimization problem, fractional Schrodinger equation, ground state, Nehari manifold, concentration compactness principle, Mathematics, QA1-939

Abstract

In the framework of fractional Sobolev space, using Nehari manifold and concentration compactness principle, we study a minimization problem in the whole space involving the fractional Laplacian. Firstly, we give a Lions type lemma in fractional Sobolev space, which is crucial in the proof of our main result. Then, by showing a relative compactness of minimizing sequence, we obtain the existence of minimizer for the above-mentioned fractional minimization problem. Furthermore, we also point out that the minimizer is actually a ground state solution for the associated fractional Schrodinger equation

Published

2018

28. Fractional elliptic problems with two critical Sobolev-Hardy exponents

Author

Wenjing Chen

Subjects

Fractional elliptic problems, mountain pass lemma, critical fractional Hardy-Sobolev exponent, concentration compactness principle, Mathematics, QA1-939

Abstract

By using the mountain pass lemma and a concentration compactness principle, we obtain the existence of positive solutions to the fractional elliptic problem with two critical Hardy-Sobolev exponents at the origin.

Published

2018

29. Existence and nonexistence results for elliptic equations involving two critical singular nonlinearities at the same pole.

Author

Benmansour, Safia, Messirdi, Sofiane, and Matallah, Atika

Abstract

In this article, we use variational methods to prove the existence of positive solutions for an elliptic equation with two critical Hardy Sobolev exponents at the same pole and a certain nonlinear perturbation. Some parameters play a crucial role in our work. [ABSTRACT FROM AUTHOR]

Published

2020

30. Multiple Solutions for a Non-cooperative Elliptic System of Kirchhoff Type Involving p-Biharmonic Operator and Critical Growth.

Author

Chung, Nguyen Thanh

Subjects

*ELLIPTIC operators, *CRITICAL exponents

Abstract

In this paper, we consider a class of non-cooperative elliptic systems of Kirchhoff type involving p -biharmonic operator and critical growth. With the help of the Limit index theory due to Li (Nonlinear Anal. TMA 30(7):4619–4627, 1997) and the concentration compactness principle, we establish the existence of infinitely many solutions for the problem under the suitable conditions on the nonlinearity. [ABSTRACT FROM AUTHOR]

Published

2020

31. Orbital stability of standing waves for Schrödinger type equations with slowly decaying linear potential.

Author

Li, Xinfu and Zhao, Junying

Subjects

*SCHRODINGER equation, *STANDING waves, *LINEAR operators, *SCHRODINGER operator, *MATHEMATICAL convolutions

Abstract

In this paper, kinds of Schrödinger type equations with slowly decaying linear potential and power type or convolution type nonlinearities are considered. By using the concentration compactness principle, the sharp Gagliardo–Nirenberg inequality and a refined estimate of the linear operator, the existence and orbital stability of standing waves in L 2 -subcritical and L 2 -critical cases are established in a systematic way. [ABSTRACT FROM AUTHOR]

Published

2020

32. Multiple solutions of a p-Kirchhoff equation with singular and critical nonlinearities

Author

Qin Li, Zuodong Yang, and Zhaosheng Feng

Subjects

Weak solution, p-Kirchhoff equation, p-Laplacian, quasilinear elliptic equation, variational principle, concentration compactness principle, Mathematics, QA1-939

Abstract

In this article, we explore the existence of multiple solutions for a p-Kirchhoff equation with the nonlinearity containing both singular and critical terms. By means of the concentration compactness principle and Ekeland's variational principle, we obtain two positive weak solutions.

Published

2017

33. Multiple solutions for a fractional [formula omitted]-Kirchhoff problem with Hardy nonlinearity.

Author

Chen, Wenjing and Gui, Yuyan

Subjects

*CRITICAL exponents, *MANIFOLDS (Mathematics)

Abstract

This paper is devoted to study the existence of multiple solutions for the following fractional p -Kirchhoff problem (0.1) M ∫ R 2 n | u (x) − u (y) | p | x − y | n + p s d x d y (− △) p s u = λ | u | q − 2 u + | u | r − 2 u | x | α , in Ω , u = 0 , in R n ∖ Ω , where (− △) p s denotes the fractional p -Laplace operator, Ω is a smooth bounded set in R n containing 0 with Lipschitz boundary, M (t) = a + b t θ − 1 with a ≥ 0 , b > 0 , θ > 1. λ > 0 , 1 < q < p < θ p ≤ r ≤ p α ∗ , p α ∗ = (n − α) p n − p s is the fractional critical Hardy–Sobolev exponent for 0 ≤ α < p s < n. By using fibering maps and Nehari manifold, we obtain that the existence of multiple solutions to problem (0.1) for both Hardy–Sobolev subcritical and critical cases. In particular, the concentration compactness principle will be used to overcome the lack of compactness for the critical case. [ABSTRACT FROM AUTHOR]

Published

2019

34. 一类无紧性扰动拟线性薛定谔方程的解.

Author

高金峰 and 梁占平

Abstract

Copyright of Journal of Henan University of Science & Technology, Natural Science is the property of Editorial Office of Journal of Henan University of Science & Technology and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2019

35. Existence of extremal functions for the Stein–Weiss inequalities on the Heisenberg group.

Author

Chen, Lu, Lu, Guozhen, and Tao, Chunxia

Subjects

*INTEGRAL inequalities, *MATHEMATICAL equivalence

Abstract

In this paper, we establish the existence of extremals for two kinds of Stein–Weiss inequalities on the Heisenberg group. More precisely, we prove the existence of extremals for the Stein–Weiss inequalities with full weights in Theorem 1.1 and the Stein–Weiss inequalities with horizontal weights in Theorem 1.4. Different from the proof of the analogous inequality in Euclidean spaces given by Lieb [26] using Riesz rearrangement inequality which is not available on the Heisenberg group, we employ the concentration compactness principle to obtain the existence of the maximizers on the Heisenberg group. Our result is also new even in the Euclidean case because we don't assume that the exponents of the double weights in the Stein–Weiss inequality (1.1) are both nonnegative (see Theorem 1.3 and more generally Theorem 1.5). Therefore, we extend Lieb's celebrated result of the existence of extremal functions of the Stein–Weiss inequality in the Euclidean space to the case where the exponents are not necessarily both nonnegative (see Theorem 1.3). Furthermore, since the absence of translation invariance of the Stein–Weiss inequalities, additional difficulty presents and one cannot simply follow the same line of Lions' idea to obtain our desired result. Our methods can also be used to obtain the existence of optimizers for several other weighted integral inequalities (Theorem 1.5). [ABSTRACT FROM AUTHOR]

Published

2019

36. ON NONHOMOGENEOUS p-LAPLACIAN ELLIPTIC EQUATIONS INVOLVING A CRITICAL SOBOLEV EXPONENT AND MULTIPLE HARDY-TYPE TERMS.

Author

MESSIRDI, SOFIANE and MATALLAH, ATIKA

Subjects

LAPLACIAN matrices, ELLIPTIC equations, SOBOLEV spaces, HARDY classes, MATHEMATICAL analysis

Abstract

In this paper, we consider a class of nonhomogeneous p-Laplacian el- liptic equations with a critical Sobolev exponent and multiple Hardy type terms. By the Ekeland variational principale on a Nehari manifold and the mountain pass lemma, we prove the existence of multiple solutions, under sufficient condi- tions on the data and the considered parameters. [ABSTRACT FROM AUTHOR]

Published

2019

37. Existence of positive solutions to fractional elliptic problems with Hardy potential and critical growth.

Author

Shang, Xudong, Zhang, Jihui, and Yin, Rong

Subjects

*LAPLACIAN operator, *MATHEMATICAL inequalities, *SCHWARTZ spaces, *SEMILINEAR elliptic equations, *FRACTIONAL calculus, *COMPACT spaces (Topology)

Abstract

In this work, we study the following critical problem involving the fractional Laplacian: (−Δ)su−μu|x|2s=λg(x)up+K(x)u2s∗−1,x∈RN,where s  ∈  (0,1), N  >  2s, 0

Published

2019

38. Existence of τ-antisymmetric solutions for a system in [formula omitted].

Author

de Gamboa, Janete, Gloss, Elisandra, and Zhou, Jiazheng

Subjects

*EXISTENCE theorems, *ANTISYMMETRIC state (Quantum mechanics), *MATHEMATICAL formulas, *COMPACT spaces (Topology), *RIEMANNIAN manifolds, *LAPLACIAN matrices

Abstract

Abstract In this paper we prove the existence of a nontrivial τ -antisymmetric solution for the following system { − Δ u + u = | u | 2 p − 2 u + β (x) | v | p | u | p − 2 u , in R N − Δ v + ω 2 v = | v | 2 p − 2 v + β (x) | u | p | v | p − 2 v , in R N where N ≥ 3 , 2 < 2 p < 2 ⁎ , ω > 0 is a positive constant and τ : R N → R N is a nontrivial orthogonal involution. Here β is a continuous function, invariant under τ , satisfying additional conditions, some of them related to ω. The basic tool employed here is the Concentration Compactness Principle. [ABSTRACT FROM AUTHOR]

Published

2018

39. Ground state of solutions for a class of fractional Schrödinger equations with critical Sobolev exponent and steep potential well.

Author

Shao, Liuyang and Chen, Haibo

Subjects

*GROUND state (Quantum mechanics), *SCHRODINGER equation, *SOBOLEV spaces, *FRACTIONAL quantum mechanics, *LAPLACIAN matrices

Abstract

In this paper, we study the following fractional Schrödinger equations: [ABSTRACT FROM AUTHOR]

Published

2017

40. Existence of weak solutions to degenerate p-Laplacian equations and integral formulas.

Author

Chua, Seng-Kee and Wheeden, Richard L.

Subjects

*INTEGRALS, *LAPLACIAN matrices, *CALCULUS of variations, *MATHEMATICAL formulas, *MATHEMATICAL analysis

Abstract

We study the problem of solving some general integral formulas and then apply the conclusions to obtain results about the existence of weak solutions of various degenerate p -Laplacian equations. We adapt Variational Calculus methods and the Mountain Pass Lemma without the Palais–Smale condition, and we use an abstract version of Lions' Concentration Compactness Principle II. [ABSTRACT FROM AUTHOR]

Published

2017

41. Positive Solutions and Infinitely Many Solutions for a Weakly Coupled System

Author

Duan, Xueliang, Wei, Gongming, and Yang, Haitao

Published

2020

42. MULTIPLE POSITIVE SOLUTIONS FOR SCHRÖDINGER-POISSON SYSTEM IN R³ INVOLVING CONCAVE-CONVEX NONLINEARITIES WITH CRITICAL EXPONENT.

Author

Miao-Miao Li and Chun-Lei Tang

Subjects

SCHRODINGER equation, MOUNTAIN pass theorem, VARIATIONAL principles, CRITICAL exponents, CALCULUS of variations

Abstract

In this paper, we study the existence of multiple positive solutions of the following Schrödinger-Poisson system with critical exponent ... where 1 < q < 2 and λ > 0. Under some appropriate conditions on l and h, we show that there exists λ > 0 such that the above problem has at least two positive solutions for each λ ∈ (0, λ*) by using the Mountain Pass Theorem and Ekeland's Variational Principle. [ABSTRACT FROM AUTHOR]

Published

2017

43. Existence of solutions for critical fractional Kirchhoff problems.

Author

Zhang, Xia and Zhang, Chao

Subjects

*KIRCHHOFF'S theory of diffraction, *LAPLACIAN operator, *FRACTIONAL differential equations, *SOBOLEV spaces, *CHEBYSHEV approximation, *MATHEMATICAL functions

Abstract

Consider the following fractional Kirchhoff equations involving critical exponent: [ABSTRACT FROM AUTHOR]

Published

2017

44. EXISTENCE OF POSITIVE SOLUTIONS FOR A CLASS OF KIRCHHOFF TYPE EQUATIONS IN R3.

Author

LING DING and SHU-MING SUN

Subjects

EIGENVALUES, NUMERICAL analysis, CONTINUOUS functions, MATHEMATICAL functions, KIRCHHOFF'S theory of diffraction

Abstract

The paper deals with the following equation of Kirchhoff type, - (1 + b(∫R3∣▿ u∣u2dx)r) ▿u + u = k(x) -∣u∣q-2u +θ(g(u)+ λh(x)u with x ∊ R3, where u ∊ H1(R3), b > 0; 0 < r < 2; q ∊ [2(r + 1), 6),θ is a small constant, λ is a parameter, and a weight function h(x) ≥ 0. It is known that the linear operator -Δu + u - λh(x)u is coercive if 0 < λ < λ1(h) and is non-coercive if λ > λ1(h), where λ1(h) is the first eigenvalue of the operator -Δu + u with the weight h(x). Under suitable conditions on the functions k(x) and g(s), it is shown that the equation has a positive solution for any λ ∊ (0; λ1(h)) and two positive solutions for λ ∊ (λ1(h); λ1(h) + ~δ) with ~δ > 0 small. The conditions imposed on k(x) and g(s) are much weaker than those used before, thereby generalizing several existing results on the existence of positive solutions for this type of Kirchhoff equations. [ABSTRACT FROM AUTHOR]

Published

2016

45. Multiple solutions for critical Choquard-Kirchhoff type equations

Author

Sihua Liang, Binlin Zhang, and Patrizia Pucci

Subjects

Hardy Littlewood Sobolev critical exponent, choquard nonlinearity, Kirchhoff equation, Hardy Littlewood Sobolev critical exponent, Mountain Pass Theorem, Concentration compactness principle, Mathematics::Analysis of PDEs, Mathematics::Classical Analysis and ODEs, Mountain Pass Theorem, 35j20, 01 natural sciences, 35j60, kirchhoff equation, Computer Science::Emerging Technologies, 0101 mathematics, Geometry and topology, Mathematics, Mathematics::Functional Analysis, 35b33, QA299.6-433, hardy-littlewood-sobolev critical exponent, Kirchhoff type, 010102 general mathematics, Mathematical analysis, Concentration compactness principle, 35a15, 010101 applied mathematics, concentraction compactness principle, Analysis

Abstract

In this article, we investigate multiplicity results for Choquard-Kirchhoff type equations, with Hardy-Littlewood-Sobolev critical exponents,−a+b∫RN|∇u|2dxΔu=αk(x)|u|q−2u+β∫RN|u(y)|2μ∗|x−y|μdy|u|2μ∗−2u,x∈RN,$$\begin{array}{} \displaystyle -\left(a + b\int\limits_{\mathbb{R}^N} |\nabla u|^2 dx\right){\it\Delta} u = \alpha k(x)|u|^{q-2}u + \beta\left(\,\,\displaystyle\int\limits_{\mathbb{R}^N}\frac{|u(y)|^{2^*_{\mu}}}{|x-y|^{\mu}}dy\right)|u|^{2^*_{\mu}-2}u, \quad x \in \mathbb{R}^N, \end{array}$$wherea> 0,b≥ 0, 0 <μ

Published

2020

46. Existence for critical Kirchhoff-Poisson systems in the Heisenberg group

Author

Pucci, Patrizia and Yiwei, Ye

Subjects

Heisenberg group, Kirchhoff Poisson system, critical growth, logarithmic nonlinearity, concentration compactness principle, Kirchhoff Poisson system, concentration compactness principle, Heisenberg group, logarithmic nonlinearity, critical growth

Published

2022

47. Multiple positive solutions for a bi-nonlocal Kirchhoff-Schr$ \ddot{\mathrm{o}} $dinger-Poisson system with critical growth.

Author

Tian, Guaiqi, Suo, Hongmin, and An, Yucheng

Subjects

*KIRCHHOFF'S theory of diffraction, *POISSON algebras, *COMPACT spaces (Topology), *ALGEBRA, *MATHEMATICS

Abstract

In this article, we study the following bi-nonlocal Kirchhoff-Schr o ¨ dinger-Poisson system with critical growth: { − (∫ Ω | ∇ u | 2 d x) r Δ u + ϕ u = u 5 + λ (∫ Ω F (x , u) d x) s f (x , u) , i n Ω , − Δ ϕ = u 2 , u > 0 , i n Ω , u = ϕ = 0 , o n ∂ Ω , where Ω ⊂ R 3 is a smooth bounded domain, λ > 0 , 0 ≤ r < 1 , 0 < s < 1 − r 3 (r + 1) and f (x , u) satisfies some suitable assumptions. By using the concentration compactness principle, the multiplicity of positive solutions for the above system is established. [ABSTRACT FROM AUTHOR]

Published

2022

48. Multiple positive solutions for a Kirchhoff type problem with a critical nonlinearity.

Author

Lei, Chun-Yu, Liu, Gao-Sheng, and Guo, Liu-Tao

Subjects

*MULTIPLICITY (Mathematics), *LAPLACIAN matrices, *NONLINEAR theories, *GROUND state (Quantum mechanics), *CRITICAL exponents, *COMPACT spaces (Topology)

Abstract

In this paper, we study the multiplicity results of positive solutions for a Kirchhoff type problem with critical growth, with the help of the concentration compactness principle, and we prove that problem admits two positive solutions, and one of the solutions is a positive ground state solution. [ABSTRACT FROM AUTHOR]

Published

2016

49. A minimization problem with variable growth on Nehari manifold.

Author

Zhang, Xia

Abstract

In this paper, based on the theory of variable exponent space, we study a class of minimizing problem on Nehari manifold via concentration compactness principle. Under suitable assumptions, by showing a relative compactness of minimizing sequences, we prove the existence of minimizers. [ABSTRACT FROM AUTHOR]

Published

2016

50. Existence and symmetry of solutions for critical fractional Schrödinger equations with bounded potentials.

Author

Zhang, Xia, Zhang, Binlin, and Repovš, Dušan

Subjects

*KIRCHHOFF'S theory of diffraction, *CRITICAL exponents, *CRITICAL phenomena (Statistical physics), *MINIMAL surfaces, *POTENTIAL functions

Abstract

This paper is concerned with the following fractional Schrödinger equations involving critical exponents: ( − Δ ) α u + V ( x ) u = k ( x ) f ( u ) + λ | u | 2 α ∗ − 2 u in R N , where ( − Δ ) α is the fractional Laplacian operator with α ∈ ( 0 , 1 ) , N ≥ 2 , λ is a positive real parameter and 2 α ∗ = 2 N / ( N − 2 α ) is the critical Sobolev exponent, V ( x ) and k ( x ) are positive and bounded functions satisfying some extra hypotheses. Based on the principle of concentration compactness in the fractional Sobolev space and the minimax arguments, we obtain the existence of a nontrivial radially symmetric weak solution for the above-mentioned equations without assuming the Ambrosetti–Rabinowitz condition on the subcritical nonlinearity. [ABSTRACT FROM AUTHOR]

Published

2016