| [1] |
Kirchhoff, G.Mechanik Teubner Leipzig. Germany; 1883. |
| [2] |
Bernstein, S.Sur une classe d’équations fonctionnelles aux déivés partielles. Bull Acad Sci URSS Sé Math. 1940;4:17-26. · JFM 66.0471.01 |
| [3] |
Pohozăev, SI.A certain class of quasilinear hyperbolic equations. Mat Sb (NS). 1975;96(138):152-166, 168. Russian. |
| [4] |
Lions, JL. On some questions in boundary value problems of mathematical physics. In: Contemporary developments in continuum mechanics and partial differential equations (Proc. Internat. Sympos., Inst. Mat., Univ. Fed. Rio de Janeiro, Rio de Janeiro (1977)). North-Holland Math. Stud., Vol. 30. Amsterdam: North-Holland; 1978. p. 284-346. · Zbl 0404.35002 |
| [5] |
Che, GF, Wu, TF.Multiple positive solutions for a class of Kirchhoff type equations with indefinite nonlinearities. Adv Nonlinear Anal. 2022;11:598-619. DOI: · Zbl 1481.35204 |
| [6] |
Chen, WJ, Zhou, T.Nodal solutions for Kirchhoff equations with Choquard nonlinearity. J Fixed Point Theory Appl. 2022;24:19pp. · Zbl 1485.35211 |
| [7] |
Cheng, B, Wu, X.Existence results of positive solutions of Kirchhoff type problems. Nonlinear Anal. 2009;71:4883-4892. DOI: · Zbl 1175.35038 |
| [8] |
Chipot, M, Lovat, B.Some remarks on nonlocal elliptic and parabolic problems. Nonlinear Anal. 1997;30(7):4619-4627. DOI: · Zbl 0894.35119 |
| [9] |
Guo, HL, Zhang, YM, Zhou, HS.Blow-up solutions for a Kirchhoff type elliptic equation with trapping potential. Commun Pure Appl Anal. 2018;17:1875-1897. DOI: · Zbl 1398.35055 |
| [10] |
Guo, ZJ.Ground states for Kirchhoff equations without compact condition. J Differ Equ. 2015;259:2884-2902. DOI: · Zbl 1319.35018 |
| [11] |
He, X, Zou, W.Infinitely many positive solutions for Kirchhoff-type problems. Nonlinear Anal. 2009;70:1407-1414. DOI: · Zbl 1157.35382 |
| [12] |
He, X, Zou, W.Multiplicity of solutions for a class of Kirchhoff type problems. Acta Math Appl Sin Engl Ser. 2010;26:387-394. DOI: · Zbl 1196.35077 |
| [13] |
He, Y, Li, G, Peng, S.Concentrating bound states for Kirchhoff type problems in \(\mathbb{R}^3\) involving critical Sobolev exponents. Adv Nonlinear Stud. 2014;14:483-510. DOI: · Zbl 1305.35033 |
| [14] |
Hu, TX, Tang, CL.Limiting behavior and local uniqueness of normalized solutions for mass critical Kirchhoff equations. Calc Var PDE. 2021;60:210. · Zbl 1473.35266 |
| [15] |
Lei, CY, Lei, YT, Zhang, BL.Solutions for critical Kirchhoff-type problems with near resonance. J Math Anal Appl. 2022;513:126205. DOI: · Zbl 1489.35112 |
| [16] |
Lei, CY, Liu, GS, Guo, LT.Multiple positive solutions for a Kirchhoff type problem with a critical nonlinearity. Nonlinear Anal Real World Appl. 2016;31:343-355. DOI: · Zbl 1339.35102 |
| [17] |
Li, G, Ye, H.On the concentration phenomenon of \(L^2 \) -subcritical constrained minimizers for a class of Kirchhoff equations with potentials. J Differ Equ. 2019;266:7101-7123. DOI: · Zbl 1423.35106 |
| [18] |
Li, QQ, Teng, KM, Wu, X.Ground states for Kirchhoff-type equations with critical growth. Commun Pure Appl Anal. 2018;17:2623-2638. DOI: · Zbl 1400.35108 |
| [19] |
Liu, J, Liu, T, Li, H-Y.Ground state solution on a Kirchhoff type equation involving two potentials. Appl Math Lett. 2019;94:149-154. DOI: · Zbl 1412.35005 |
| [20] |
Liu, J, Liao, J-F, Pan, H-L.Ground state solution on a non-autonomous Kirchhoff type equation. Comput Math Appl. 2019;78:878-888. DOI: · Zbl 1442.35123 |
| [21] |
Liu, WM.Multi-bump solutions for Kirchhoff equation in \(\mathbb{R}^3 \). Z Angew Math Phys. 2022;73:129. · Zbl 1491.35218 |
| [22] |
Mao, A, Zhang, Z.Sign-changing and multiple solutions of Kirchhoff type problems without the P. S. condition. Nonlinear Anal. 2009;70:1275-1287. DOI: · Zbl 1160.35421 |
| [23] |
Nie, JJ.Existence and multiplicity of nontrivial solutions for a class of Schrödinger-Kirchhoff-type equations. J Math Anal Appl. 2014;417:65-79. DOI: · Zbl 1312.35102 |
| [24] |
Nie, JJ, Wu, X.Existence and multiplicity of non-trivial solutions for Schrödinger-Kirchhoff-type equations with radial potential. Nonlinear Anal. 2012;75:3470-3479. DOI: · Zbl 1239.35131 |
| [25] |
She, LB, Sun, X, Duan, Y.Multiple positive solutions for a class of Kirchhoff type equations in \(\mathbb{R}^N \). Bound Value Probl. 2018;10:13pp. · Zbl 1404.35179 |
| [26] |
Wang, DB.Least energy sign-changing solutions of Kirchhoff-type equation with critical growth. J Math Phys. 2020;61:011501. · Zbl 1433.35443 |
| [27] |
Xie, QL, Ma, SW, Zhang, X.Bound state solutions of Kirchhoff type problems with critical exponent. J Differ Equ. 2016;261:890-924. DOI: · Zbl 1345.35038 |
| [28] |
Xie, QL, Yu, JS.Bounded state solutions of Kirchhoff type problems with a critical exponent in high dimension. Commun Pure Appl Anal. 2019;18:129-158. DOI: · Zbl 1401.35090 |
| [29] |
Ye, YW.Ground state solutions for Kirchhoff-type problems with critical nonlinearity. Taiwanese J Math. 2020;24:63-79. DOI: · Zbl 1436.35168 |
| [30] |
Zhang, H, Gu, C, Yang, CM, et al. Positive solutions for the Kirchhoff-type problem involving general critical growth – part I: existence theorem involving general critical growth. J Math Anal Appl. 2018;460:1-16. DOI: · Zbl 1384.35026 |
| [31] |
Zhang, HB.Ground state and nodal solutions for critical Schrödinger-Kirchhoff-type Laplacian problems. J Fixed Point Theory Appl. 2021;23:16pp. · Zbl 1472.35173 |
| [32] |
Zhang, J, Zou, WM.Multiplicity and concentration behavior of solutions to the critical Kirchhoff-type problem. Z Angew Math Phys. 2017;68;27pp. · Zbl 1375.35192 |
| [33] |
Zhao, YX, Wu, XP, Tang, CL.Ground state sign-changing solutions for Schrödinger-Kirchhoff-type problem with critical growth. J Math Phys. 2022;63:101503. · Zbl 1507.35087 |
| [34] |
Zhou, F, Yang, MB.Solutions for a Kirchhoff type problem with critical exponent in \(\mathbb{R}^N \). J Math Anal Appl. 2021;494:124638. DOI: · Zbl 1459.35202 |
| [35] |
Li, Y, Li, F, Shi, J.Existence of a positive solution to Kirchhoff type problems without compactness conditions. J Differ Equ. 2012;253:2285-2294. DOI: · Zbl 1259.35078 |
| [36] |
Xu, HY.Existence of positive solutions for the nonlinear Kirchhoff type equations in \(\mathbb{R}^n \). J Math Anal Appl. 2020;482:123593. DOI: · Zbl 1440.35120 |
| [37] |
Jeanjean, L.Local condition insuring bifurcation from the continuous spectrum. Math Z. 1999;232:651-664. DOI: · Zbl 0934.35047 |
| [38] |
Jeanjean, L, Le Coz, S.An existence and stability result for standing waves of nonlinear Schrödinger equations. Adv Differ Equ. 2006;11:813-840. DOI: · Zbl 1155.35095 |
| [39] |
Li, G, Ye, H.Existence of positive ground state solutions for the nonlinear Kirchhoff type equation in \(\mathbb{R}^3 \). J Differ Equ. 2014;257:566-600. DOI: · Zbl 1290.35051 |
| [40] |
Chen, S, Liu, J, Wang, Z-Q.Localized nodal solutions for a critical nonlinear Schrödinger equation. J Funct Anal. 2019;277:594-640. DOI: · Zbl 1423.35088 |
| [41] |
Liu, X, Zhao, J.\( p-\) Laplacian equations in \(\mathbb{R}^N\) with finite potential via truncation method. Adv Nonlinear Stud. 2017;17:595-610. DOI: · Zbl 1375.35227 |
| [42] |
Zhao, JF, Liu, XQ, Liu, JQ.\( p-\) Laplacian equations in \(\mathbb{R}^N\) with finite potential via truncation method, the critical case. J Math Anal Appl. 2017;455:58-88. DOI: · Zbl 1375.35228 |
| [43] |
Zhao, JF, Liu, XQ, Liu, JQ.Infinitely many sign-changing solutions for system of p-Laplacian equations in \(\mathbb{R}^N \). Nonlinear Anal. 2019;182:113-142. DOI: · Zbl 1418.35204 |
| [44] |
Wu, X.Existence of nontrivial solutions and high energy solutions for Schrödinger-Kirchhoff-type equations in \(\mathbb{R}^N \). Nonlinear Anal RWA. 2011;12:1278-1287. DOI: · Zbl 1208.35034 |
| [45] |
Jing, YT, Liu, ZL, Wang, Z-Q.Multiple solutions of a parameter-dependent quasilinear elliptic equation. Calc Var PDE. 2016;55;150. · Zbl 1361.35063 |
| [46] |
Rabinowitz, PH.Minimax methods in critical point theory with applications to differential equations. Providence (RI): AMS; 1986. (). · Zbl 0609.58002 |
| [47] |
Willem, M.Minimax theorems. Basel: Birkhauser; 1996. · Zbl 0856.49001 |
| [48] |
Tintarev, C. Concentration analysis and cocompactness. In: Concentration analysis and applications to PDE. Trends Math. Basel: Birkhäuser/Springer; 2013. p. 117-141. · Zbl 1291.46019 |
| [49] |
Divillanova, G, Solimini, S.Concentration estimates and multiple solutions to elliptic problems at critical growth. Adv Differ Equ. 2002;7:1257-1280. · Zbl 1208.35048 |
