Abdelkrim MOUSSAOUI
,
Jean VELIN
. EXISTENCE AND BOUNDEDNESS OF SOLUTIONS FOR SYSTEMS OF QUASILINEAR ELLIPTIC EQUATIONS[J]. Acta mathematica scientia, Series B, 2021
, 41(2)
: 397
-412
.
DOI: 10.1007/s10473-021-0205-2
[1] Adams R A. Sobolev spaces. New York, London, Toronto, Sydney, San Francisco:Academic Press, 1975
[2] Adriouch K. On quasilinear and anisotropic elliptic systems with Sobolev critical exponents. University of La Rochelle:Thesis, 2007
[3] Aghajani A, Shamshiri J. Multilplcity of positive solutions for quasilinear elliptic p-Laplacians systems. Elec J Diff Eqts, 2012, 111:1-16
[4] Ahammou A. A multilplcity result for a quasilinear gradient elliptic system. J App Math, 2001, 1(3):91-106
[5] Brézis H. Analyse fonctionnelle, Théorie et applications. Paris:Masson, 1983
[6] Choi Y S, McKenna P J. A singular Gierer-Meinhardt system of elliptic equations. Ann Inst H Poincaré Anal Non-linéaire, 2000, 17(4):503-522
[7] Clément Ph, Fleckinger J, Mitidieri E, de Thélin F. Existence of positive solutions for a non variational quasilinear elliptic system. J Diff Eqts, 2000, 166(2):455-477
[8] Clément Ph, Garcia-Huidobro M, Guerra I, Manasevich R. On region of existence and nonexistence of solutions for a system of p, q-Laplacians. Asymptot Anal, 2006, 48(1/2):1-18
[9] Cuesta M, Takáč P. Nonlinear eigenvalue problems for degenerate elliptic systems. Diff Int Eqts, 2010, 23(11/12):1117-1138
[10] Evans L C. Partial Differential Equations. Graduate studies in Mathematics. V19. American Mathematical Society-second edition, 2010
[11] De Figueiredo D G. Nonlinear elliptic systems. An Acad Bras Ciênc, 2000, 72(4):453-469
[12] De Figueiredo D G. Semilinear elliptic systems:existence, multiplicity, symmetry of solutions//Chipot M. Handbook of Differential Equations:Stationary Partial Differential Equations. Vol 5. Amsterdam, The Netherlands:Elsevier Science BV, 2008:1-48
[13] De Figueiredo D G. Lectures on the Ekeland variational principle with applications and detours. Bombay:Tata Institute on Fundamental Research, 1989
[14] de Thélin F. Première valeur propre d'un système elliptique non linéaire. Rev Mat Apl, 1992, 13(1):1-8; see also C R Acad Sci Paris Ser I, 1990, 311(10):603-606
[15] de Thélin F, Vélin J. Existence et non-existence de solutions non triviales pour des systèmes elliptiques non linèaires. CR Acad Sci Paris, 1991, 313:589-592
[16] de Thélin F, Vélin J. Existence and nonexistence of nontrivial solutions for some nonlinear elliptic systems. Rev Mat Univ Comput Madrid, 1993, 6:153-194
[17] Faraci F, Motreanu D, Puglisi D. Positive solutions of quasi-linear elliptic equations with dependence on the gradient. Calc Var Partial Differential Equations, 2015, 54(1):525-538
[18] Giacomoni J, Hernandez J, Moussaoui A. Quasilinear and singular systems:the cooperative case. Contemp Math Amer Math Soc, 2011, 540:79-94
[19] Giacomoni J, Hernandez J, Sauvy P. On quasilinear and singular elliptic systems. Adv Nonl Anal, 2013, 2:1-14
[20] Gilbarg D, Trundiger N S. Elliptic partial differential equations of second order. Springer, Berlin, Heidelberg:Springer-Verlag, 2001
[21] Hai D D, Shivaji R. An existence result on positive solutions for a a class of p-Laplacian systems. Nonl Anal, 2004, 56(7):1007-1010
[22] Hernandez J, Mancebo F J, Vega J M. Positive solutions for singular semilinear elliptic systems. Adv Diff Eqts, 2008, 13(9/10):857-880
[23] Jebelan P, Precup R. Solvability of p, q-Laplacian systems with potential boundary conditions. Appl Anal, 2010, 89(2):221-228
[24] EL Manouni S, Perera K, Shivaji R. On singular quasi-monotone (p, q)-Laplacian systems. Proc Roy Soc Edinburgh Sect A, 2012, 142(3):585-594
[25] Lions J L, Peetre J. Sur une classe d'espaces d'interpolation. Publications mathématiques de l'IHES, 1964, 19:5-68
[26] Máté G. Fractional order Sobolev spaces. Budapest:Thesis Matematikus MSC, 2012
[27] Motreanu D, Moussaoui A. A quasilinear singular elliptic system without cooperative structure. Acta Mathematica Scientia, 2014, 34B(3):905-916
[28] Osborne M S. Locally convex spaces//Graduate Texts in Mathematics. Springer, 2014
[29] Otani M. Existence and nonexistence of nontrivial solutions of some nonlinear degenerate elliptic equations. J Funct Anal, 1988, 76(1):140-159
[30] Smart D R. Fixed Point Theorems. Cambridge:Cambridge University Press, 1980
[31] Shen Y, Zhang J. Multiplicity of positive solutions for a semilinear p-Laplacian system with Sobolev critical exponent. Nonl Anal, 2011, 74(4):1019-1030
[32] Simon J. Caractérisation d'espaces fonctionnels. Bollettino UMI, 1978, 15B(5):687-714
[33] Simon J. Régularité locale des solutions d'une équation non linéaire[D]. Paris:University of P M Curie, 1976
[34] Simon J. Régularité de la solution d'un problème aux limites non linéaires. Annales Facultés des sciences Toulouse, 1981, 3(3/4):247-274
[35] Takáč P. Regular and singular system with the p- and q-Laplacians//Advanced lecture in the International conference Variational and topological mehods:Theory, Applications, numerical simulations and open problems. Flagstaff, Arizona, USA:Northen Arizona University, 2012-06-09
[36] Tolksdorf P. Regularity for a more general class of quasilinear elliptic equations. J Diff Eqts, 1984, 51:126-150
[37] Wang H. Existence and nonexistence of positive radial solutions for quasilinear systems. Disc Cont Dyn Syst, 2009:810-817
[38] Wei L, Feng Z. Existence and nonexistence of solutions for quasilinear elliptic systems. Dyn Partial Diff Eqts, 2013, 10(1):25-42
